Sequence-generating method, and apparatus for same

ABSTRACT

The present invention relates to a wireless communication system. More particularly, the present invention relates to a method for enabling a transmitter to transmit a sequence in a wireless communication system, and to an apparatus for the same. A sequence-transmitting method comprises the steps of: performing at least one of a complex conjugate operation and a reverse operation on a first sequence to generate a second sequence; mapping the second sequence to a plurality of subcarriers in an Orthogonal Frequency Division Multiple Access (OFDMA) symbol; and transmitting the OFDMA symbol to a receiver. The invention also relates to an apparatus for the sequence-generating method.

This application is a National Phase of PCT/KR2010/000824 filed on Feb. 10, 2010, which claims priority under 35 USC 119(e) to U.S. Provisional Application Nos. 61/153,291 filed Feb. 17, 2009; 61/156,892 filed Mar. 3, 2009; 61/168,221 filed Apr. 10, 2009; 61/223,355 filed Jul. 6, 2009 and under 35 USC 119(a) to Patent Application No. 10-2009-0077562 filed in Republic of Korea on Aug. 21, 2009, all of which are hereby expressly incorporated by reference into the present application.

TECHNICAL FIELD

The present invention relates to a wireless communication system, and more particularly, to a method and apparatus for transmitting and receiving a sequence in a wireless communication system.

BACKGROUND ART

FIG. 1 illustrates an exemplary wireless communication system. Referring to FIG. 1, a wireless communication system 100 includes a plurality of Base Stations (BSs) 110 a, 110 b and 110 c and a plurality of Mobile Stations (MSs) 120 a to 120 i. The wireless communication system 100 may include a homogeneous network or a heterogeneous network. A heterogeneous network refers to a network in which different network entities co-exist, such as macro cells, femto cells, pico cells, relays, etc. A BS is typically a fixed station that communicates with MSs and each BS 110 a, 110 b or 110 c provides services to a specific geographical area 102 a, 102 b or 102 c. To increase system performance, the specific area may be divided into a plurality of smaller areas 104 a, 104 b and 104 c, which may be called cells, sectors, or segments. In an Institute of Electrical and Electronics Engineers (IEEE) 802.16 system, a cell Identifier (ID) (IDcell) is assigned from the perspective of the entire system, whereas a sector ID or segment ID is assigned from the perspective of the coverage area of each BS, ranging from 0 to 2. The MSs 120 a to 120 i are fixed or mobile terminals that are usually distributed over the wireless communication system 100. Each MS may communicate with one or more BSs at a given time instant on a downlink and uplink. The communication between an MS and a BS may be carried out in Frequency Division Multiple Access (FDMA), Time Division Multiple Access (TDMA), Code Division Multiple Access (CDMA), Single Carrier-FDMA (SC-FDMA), Multi Carrier-FDMA (MC-FDMA), Orthogonal Frequency Division Multiple Access (OFDMA), or a combination of two or more of them. Herein, the term “uplink” refers to a communication link directed from an MS to a BS, and the term “downlink” refers to a communication link directed from a BS to an MS.

FIG. 2 illustrates the structure of a downlink subframe in an IEEE 802.16e system. The downlink frame structure was designed for operation in Time Division Duplex (TDD) mode.

Referring to FIG. 2, the downlink subframe includes a plurality of Orthogonal Frequency Division Multiplexing (OFDM) symbols. The downlink subframe is divided in structure into a preamble, a Frame Control Header (FCH), a Downlink-MAP (DL-MAP), an Uplink-MAP (UL-MAP), and DL bursts. Each downlink subframe starts with a preamble that occupies the first OFDM symbol of the downlink subframe. The preamble is used for time synchronization acquisition, frequency synchronization acquisition, cell search, and channel estimation.

FIG. 3 illustrates subcarriers to which a preamble is mapped in 1024-Fast Fourier Transform (FFT) mode (a 10-MHz bandwidth) in the IEEE 802.16e system.

Referring to FIG. 3, some areas at both sides of a given bandwidth are used as guard bands. Therefore, the preamble is mapped to the rest except the guard bands. The remaining frequency area except the guard bands is divided into three segments for three sectors. A preamble is inserted at an interval of three subcarriers, with 0s filled at the other subcarriers. For example, a preamble for segment 0 is inserted at subcarriers 0, 3, 6, 9, . . . , 843, 846 and 849. A preamble for segment 1 is inserted at subcarriers 1, 4, 7, 10, . . . , 844, 847 and 850. A preamble for segment 2 is inserted at subcarriers 2, 5, 8, 11, . . . , 845, 848 and 851.

In the IEEE 802.16e system, a sequence used for the preamble is a binary code inserted in a frequency area, as proposed by Runcom. Among sequences that can be generated as binary codes, sequences that satisfy certain correlation properties and have low Peak-to-Average Power Ratios (PAPRs) in the time domain were found, by computer-aided search. Table 1 below lists some preamble sequences.

TABLE 1 Index IDcell Segment Series to modulate (in hexadecimal format) 0 0 0 0xA6F294537B285E1844677D133E4D53CCB1F182DE00489E53E6B6E 77065C7EE7D0ADBEAF 1 1 0 0x668321CBBE7F462E6C2A07E8BBDA2C7F7946D5F69E35AC8ACF7 D64AB4A33C467001F3B2 2 2 0 0x1C75D30B2DF72CEC9117A0BD8EAF8E0502461FC07456AC906AD E03E9B5AB5E1D3F98C6E 3 3 0 0x5F9A2E5CA7CC69A5227104FB1CC2262809F3B10D0542B9BDFDA 4A73A7046096DF0E8D3D

Referring to Table 1, a preamble sequence is determined according to a segment number and a parameter IDcell. Each preamble sequence is converted to a binary signal and modulated by Binary Phase Shift Keying (BPSK), prior to mapping to subcarriers. Specifically, a hexadecimal sequence is converted to a binary sequence W_(k) and modulated by BPSK in the order from the Most Significant Bit (MSB) to the Least Significant Bit (LSB) (0=>+1, 1=>−1). For example, hexadecimal sequence 0 is converted to W_(k)[110000010010 . . . ] and then modulated to [−1−1+1+1+1+1+1−1+1+1−1+1 . . . ].

FIGS. 2 and 3 are examples of using sequences for signal transmission. Besides the preamble, sequences are used for transmission of many other channels and signals in the wireless communication system. For example, sequences have a variety of usages including synchronization channels, a midamble, a reference signal, control channels, scrambling codes, and multiplexing in the wireless communication system. The sequences preferably satisfy the following characteristics:

-   -   The sequences have good correlation properties to provide good         detection performance;     -   The sequences have Low Cubic Metrics (CMs) or PAPRs to maximize         the efficiency of a power amplifier;     -   Many sequences are available to facilitate transmission of a         large amount of information or cell planning;     -   The sequences reduce a memory size requirement for storing the         sequences; and     -   A receiver has a low complexity, when the receiver uses the         sequences.

Especially the complexity of the receiver is a very significant factor that directly affects its battery lifetime. Accordingly, there exists a need for a method for generating a sequence so as to further decrease a memory size requirement, while reducing complexity.

DISCLOSURE Technical Problem

Accordingly, the present invention is directed to a method for generating a sequence that substantially obviates one or more problems due to limitations and disadvantages of the related art.

An object of the present invention is to provide a method and apparatus for generating sequences in a wireless communication system.

Another object of the present invention is to provide a method and apparatus for generating sequences having excellent correlation properties and low Peak-to-Average Power Ratios (PAPRs) or Cubic Metrics (CMs).

Another object of the present invention is to provide a method and apparatus for generating sequences in such a manner that maximizes the number of available sequences.

A further object of the present invention is to provide a method and apparatus for generating sequences which have a low memory size requirement and which a receiver can detect or estimate with low complexity.

Technical Solution

To achieve these objects and other advantages and in accordance with the purpose of the invention, as embodied and broadly described herein, a method for transmitting a sequence at a transmitter in a wireless communication system includes generating a second sequence by performing at least one of complex conjugation and a reverse operation on a first sequence, mapping the second sequence to a plurality of subcarriers in an Orthogonal Frequency Division Multiple Access (OFDMA) symbol, and transmitting the OFDMA symbol to a receiver.

The method may further include modulating the first sequence to a complex sequence according to a type of the first sequence.

The first sequence may be at least one of sequences included in a sequence set that is stored in the transmitter.

The type of the first sequence may be Quadrature Phase Shift Keying (QPSK).

The second sequence may be transmitted on a synchronization channel. Also, the second sequence may be transmitted on a ranging channel.

The first sequence may be at least one of sequences listed in Table 11, Table 12 and Table 13.

In another aspect of the present invention, a transmitter for transmitting a sequence in a wireless communication system includes a second sequence generator for generating a second sequence by performing at least one of complex conjugation and a reverse operation on a first sequence, a subcarrier mapper for mapping the second sequence to a plurality of subcarriers in an OFDMA symbol, and a transmission module for transmitting the OFDMA symbol to a receiver.

The transmitter may further include a constellation mapper for modulating the first sequence to a complex sequence according to a type of the first sequence.

In another aspect of the present invention, a method for transmitting a sequence at a transmitter in a wireless communication system includes modulating a first sequence to a complex sequence according to a type of the first sequence, mapping the complex sequence to a plurality of subcarriers in an OFDMA symbol, and transmitting the OFDMA symbol to a receiver. The first sequence is at least one of sequences included in Table 11, Table 12 and Table 13.

The type of the first sequence may be QPSK. Then, the first sequence W_(i) ^((p)) may be modulated to QPSK symbols w_(2i) ^((p)) and w_(2i+1) ^((p)) by the following equation,

$w_{2\; i}^{(p)} = {\exp\left( {j\frac{\pi}{2}\left( {{2 \cdot a_{i,0}^{(p)}} + a_{i,1}^{(p)}} \right)} \right)}$ $w_{{2\; i} + 1}^{(p)} = {\exp\left( {j\frac{\pi}{2}\left( {{2 \cdot a_{i,2}^{(p)}} + a_{i,3}^{(p)}} \right)} \right)}$ where W_(i) ^((p))=2³·a_(i,0) ^((p))+2²·a_(i,1) ^((p))+2¹·a_(i,2) ^((p))+2⁰·a_(i,3) ^((p)) and i is an integer from 0 to 107.

The first sequence may be cyclically extended according to a Fast Fourier Transform (FFT) size.

The first sequence may be a Secondary Advanced Preamble (SA-Preamble) used for downlink synchronization. The SA-Preamble may be mapped to subcarriers by the following equation,

${SAPreambleCarrierSet}_{n} = {n + {3 \cdot k} + {40 \cdot \frac{N_{SAP}}{144}} + \left\lfloor \frac{2 \cdot k}{N_{SAP}} \right\rfloor}$ where n denotes an index of an SA-Preamble carrier set, indicating a segment Identifier (ID) ranging from 0 to 2, N_(SAP) denotes a length of the SA-Preamble, and k is an integer ranging from 0 to N_(SAP)−1.

The first sequence may indicate information about a cell ID, IDcell according to the following equation, IDcell=256×n+Idx where n is an index of an SA-Preamble carrier set, indicating a segment ID ranging from 0 to 2, and Idx is an integer ranging from 0 to 255.

The method may further include performing at least one of complex conjugation and a reverse operation on the first sequence.

One of block cover sequences listed in the following table may be applied to the first sequence on a subblock basis,

Block cover sequence (hexadecimal format) (FFT, number of Segment ID antennas) 0 1 2 (512, 1) 00 00 00 (512, 2) 22 22 37 (512, 4) 09 01 07 (512, 8) 00 00 00 (1024, 1) 0FFF 555A 000F (1024, 2) 7373 3030 0000 (1024, 4) 3333 2D2D 2727 (1024, 8) 0F0F 0404 0606 (2048, 1) 0F0FFF00 00000FF0 0F000FFF (2048, 2) 7F55AA42 4438180C 3A5A26D9 (2048, 4) 1A13813E 03284BF0 391A8D37 (2048, 8) 0D0EF8FA 0C0BFC59 03000656 In the above table, a block cover sequence converted to a binary sequence {0, 1} is mapped to {+1, −1}.

Transmission, power of the first sequence may be boosted using one of boosting levels listed in the following table,

Boosting level FFT Ant 512 1024 2048 1 1.87 1.75 1.69 2 2.51 2.33 2.42 4 4.38 3.56 3.50 8 8.67 6.25 4.95

The first sequence may be transmitted through a plurality of antennas. In this case, the first sequence may be interleaved across the plurality of antennas on a block basis.

In another aspect of the present invention, a transmitter for transmitting a sequence in a wireless communication system includes a memory for storing at least part of sequences included in Table 11, Table 12, and Table 13, a constellation mapper for modulating a first sequence selected from the memory to a complex sequence according to a type of the first sequence, a subcarrier mapper for mapping the complex sequence to a plurality of subcarriers in an OFDMA symbol, and an RF module for transmitting the OFDMA symbol to a receiver.

In another aspect of the present invention, a method for detecting a sequence at a receiver in a wireless communication system includes receiving from a transmitter a sequence mapped to a plurality of subcarriers in an OFDMA symbol, correlating a first sequence with the received sequence, and detecting the received sequence based on a correlation. The first sequence is at least one of sequences included in Table 11, Table 12 and Table 13.

For the correlation operation, preliminary computations may be performed on combinations between real and imaginary parts of the received sequence and real and imaginary parts of the at least one first sequence. Correlations between the received sequence and the at least one first sequence and between the received sequence and a complex conjugate sequence of the first sequence may be obtained by combining a plurality of preliminary correlations.

The first sequence may be an SA-Preamble used for downlink synchronization. The SA-Preamble may be mapped to subcarriers by the following equation,

${SAPreambleCarrierSet}_{n} = {n + {3 \cdot k} + {40 \cdot \frac{N_{SAP}}{144}} + \left\lfloor \frac{2 \cdot k}{N_{SAP}} \right\rfloor}$ where n denotes an index of an SA-Preamble carrier set, indicating a segment Identifier (ID) ranging from 0 to 2, N_(SAP) denotes a length of the SA-Preamble, and k is an integer ranging from 0 to N_(SAP)−1.

The method may further include acquiring a cell ID from the received sequence.

In a further aspect of the present invention, a receiver for detecting a sequence in a wireless communication system includes an RF module for receiving from a transmitter a sequence mapped to a plurality of subcarriers in an OFDMA symbol, a memory for storing at least part of sequences included in Table 1, Table 2 and Table 3, and a processor for correlating at least one first sequence stored in the memory with the received sequence and detecting the received sequence based on a correlation.

The processor may acquire a cell ID from the received sequence.

The receiver may further include a buffer for temporarily storing a real part of a sequence and a buffer for temporarily storing an imaginary part of the sequence.

The receiver may further include a first buffer for temporarily storing a real part of the received sequence, a second buffer for temporarily storing an imaginary part the received sequence, a third buffer for temporarily storing a real part of the at least one first sequence, and a fourth buffer for temporarily storing an imaginary part of the at least one first sequence.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

Advantageous Effects

As is apparent from the above description, the embodiments of the present invention have the following effects.

Sequences can be provided for use in channels, signals, etc.

In addition, sequences having excellent correlation properties and low PAPRs or CMs can be provided.

The number of available sequences can be maximized.

Further, a memory size requirement for storing sequences can be reduced and a receiver can detect or estimate sequences with low complexity.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. The objectives and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

DESCRIPTION OF DRAWINGS

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and together with the description serve to explain the principle of the invention. In the drawings:

FIG. 1 illustrates an exemplary wireless communication system.

FIG. 2 illustrates a downlink subframe structure in an Institute of Electrical and Electronics Engineers (IEEE) 802.16e system.

FIG. 3 illustrates subcarriers to which a preamble is mapped in 1024-Fast Fourier Transform (FFT) mode (a 10 MHz-bandwidth) in the IEEE 802.16e system.

FIG. 4 is a flowchart illustrating a method for generating sequences having Peak-to-Average Power Ratios (PAPRs) or Cubic Metrics (CMs) and excellent basic properties in terms of auto-correlation, cross-correlation, differential auto-correlation, and differential cross-correlation according to an embodiment of the present invention.

FIG. 5 is a block diagram of a transmitter for extending sequences by complex conjugation according to an embodiment of the present invention.

FIG. 6 is a block diagram of a receiver for detecting sequences according to an embodiment of the present invention.

FIGS. 7A to 7E are graphs illustrating properties of sequences generated according to an embodiment of the present invention.

FIG. 8 illustrates a radio frame structure in an IEEE 802.16m system.

FIG. 9 illustrates an exemplary transmission of synchronization channels in the IEEE 802.16m system.

FIG. 10 illustrates subcarriers to which a Primary Advanced Preamble (PA-preamble) is mapped.

FIG. 11 illustrates an exemplary mapping of Secondary Advanced Preambles (SA-Preambles) to frequency areas.

FIG. 12 illustrates an exemplary SA-Preamble structure for 512-FFT.

FIGS. 13, 14 and 15 illustrate exemplary SA-preamble structures in multi-antenna systems.

FIG. 16 illustrates exemplary ranging channel structures in the IEEE 802.16m system.

FIG. 17 is a block diagram of a transmitter and a receiver according to an embodiment of the present invention.

MODE FOR INVENTION

The above and other objects, features and other advantages of the present invention will be more clearly understood from the following detailed description taken in conjunction with the accompanying drawings. Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. Embodiments of the present invention are examples to which the technical features of the present invention are applied. While the present invention is described in the context of an Institute of Electrical and Electronics Engineers (IEEE) 802.16 system by way of example, it is also applicable to a variety of wireless communication systems including a 3^(rd) Generation Partnership Project (3GPP) system.

In wireless communication systems, sequences are used as follows. The followings are mere examples and thus sequences are available to many other channels and signals.

Downlink (DL) Sync Channel

The DL sync channel is used for acquisition of downlink time synchronization and frequency synchronization and for cell search. Specifically, synchronization is acquired and a physical cell Identifier (ID) is detected, by correlating sequences with a sequence received on the DL sync channel. For the purpose of cell ID detection, the existence of as many sequences as possible is favorable in terms of cell planning.

According to systems, the DL sync channel is called different names. For example, the DL sync channel is called a Synchronization Signal (SS) in 3GPP Long Term Evolution (LTE), a preamble in IEEE 802.16e, and an advanced preamble in IEEE 802.16m.

Since a Mobile Station (MS) serves as a receiver, the complexity of the receiver is a very significant issue.

Uplink (UL) Sync Channel

The UL sync channel is used for acquisition of uplink time synchronization and frequency synchronization, access for network registration, a scheduling request, a bandwidth request, etc. A sequence transmitted on the UL sync channel is regarded as an opportunity. A Base Station (BS) may identify an opportunity in which an MS has transmitted a signal by detecting the sequence. The BS may also track timing or estimate a residual frequency offset by use of the detected sequence. Since less collision occurs with more opportunities, the existence of many sequences is favorable. In terms of cell planning, it is also preferable to generate as many sequences as possible.

The UL sync channel is also called a Random Access CHannel (RACH) in 3GPP LTE, and a ranging channel in IEEE 802.16e/m.

In relation, to the UL sync channel, the receiver complexity is a consideration.

DL/UL Reference Signal

If a transmitter transmits a signal after coherent modulation (e.g. Phase Shift Keying (PSK), Quadrature Amplitude Modulation (QAM), etc.), a receiver should estimate a fading channel that the signal has experienced and compensate for the fading channel, for signal demodulation. In general, to help the receiver with the fading channel estimation, the transmitter transmits a Reference Signal (RS) along with the signal. The RS is also used for the receiver to measure the channel quality of its serving cell or another cell. The RS may also serve the purpose of timing/frequency tracking. In addition, an MS may synchronize its timing using an RS, when it wakes up from sleep mode. In this manner, the RS may serve many purposes. The RS is generally transmitted using a sequence and as more sequences are available, it is better in terms of cell planning.

An RS is called as it is in 3GPP LTE and a pilot signal in IEEE 802.16e/m.

The receiver complexity is to be considered in relation to the DL/UL RS.

DL/UL Control Channel

Control information may be transmitted using a sequence on a control channel. For example, a Channel Quality Indicator (CQI) or an ACKnowledgement/Negative ACKnowledgement (ACK/NACK) may be transmitted as a sequence. More information can be transmitted with more sequences.

In relation to the DL/UL control channel, the receiver complexity needs to be considered.

Scrambling

Scrambling has many usages. For example, scrambling may be used for randomization or PAPR (or CM) reduction. A signal can be scrambled by multiplying it by a sequence, element by element. Also, a signal can be scrambled by adding the signal to a sequence, element by element and then modulo-operating the sum. Scrambling is not limited to a specific channel. In terms of cell planning, it is better to have many available sequences.

The receiver complexity needs to be considered in relation to scrambling.

User Multiplexing or Channel Multiplexing

Sequences may be used in multiplexing a plurality of users in one channel by Code Division Multiplexing (CDM). Sequences may also be used in multiplexing channels by CDM. A multiplexing capability is related to the number of available sequences.

In relation to user multiplexing or channel multiplexing, the receiver complexity is an issue to be considered.

Midamble

A midamble is an area allocated for a common pilot in a frame. A midamble sequence may be used for channel estimation, Multiple Input Multiple Output (MIMO) channel estimation, CQI estimation, etc.

In relation to the midamble, the receiver complexity is to be considered.

The following embodiments of the present invention are applicable simply to all of the above-described channels (e.g. pilot, control channel, UL sync channel, etc.). Accordingly, unless stated otherwise, the embodiments of the present invention will be described, centering on a DL sync channel (e.g. a preamble, a Synchronization CHannel (SCH), etc.), for the convenience' sake of description.

Embodiment 1 Sequence Generation

Preferably, sequences satisfy the following conditions for a DL sync channel:

-   -   A. Low PAPR (or CM): for channel boosting to extend coverage;     -   B. Low complexity: for saving battery power by reducing the         computation volume of correlation at an MS;     -   C. Small memory size: for reducing a memory size required for         storing sequences; and     -   D. Low correlation properties         -   Low cross-correlation: for reducing false alarm during cell             ID detection and for distinguishing an intended cell             component from a neighbor cell component during channel             estimation         -   Low differential cross-correlation: a cross-correlation             property regarding non-coherent detection on             frequency-selective fading channels, when a sequence is             transmitted in a wide band.         -   Low auto-correlation side peak in frequency domain: for             compensating for an integer frequency offset.         -   Low differential auto-correlation side peak in frequency             domain: for compensating for an integer frequency offset by             differential auto-correlation, for frequency-domain             implementation.         -   Low cross-correlation in time domain: cross-correlation in             the frequency domain is equivalent to cross-correlation in             the time domain. Therefore, low cross-correlation in the             time domain amounts to low cross-correlation in the             frequency domain.         -   Low auto-correlation side peak in time domain: important for             detection of accurate symbol timing. When timing             synchronization is acquired by cross-correlation with a             known sequence, a non-periodic auto-correlation property is             significant (e.g. a 3GPP family). On the other hand, if             coarse timing synchronization based on waveform             characteristics (e.g. a repetition structure) is followed by             fine timing synchronization during a Cyclic Prefix (CP)             duration after cell ID detection, a periodic             auto-correlation property in the time domain is significant             (e.g. IEEE 802.16e/m, IEEE 802.20, etc.). For a sequence             having a flat spectrum in the frequency domain, a periodic             auto-correlation side peak in the time domain is zero (i.e.             a delta function). Hence, this property may not be examined             for a sequence having a frequency flat amplitude.

FIG. 4 is a flowchart illustrating a method for generating sequences having low PAPRs or CMs and excellent basic properties in terms of auto-correlation, cross-correlation, differential auto-correlation, and differential cross-correlation according to an embodiment of the present invention. The sequence generation largely involves three steps.

Step 1: sequences with low PAPRs are selected from among randomly generated sequences. First, a sequence generation criterion is set according to an intended purpose in step 402. In steps 404 and 406, a sequence of length N is generated in such a manner that each element of the sequence has a constant amplitude and a random phase. The random phase may be created using a random variable having a uniform or Gaussian distribution, as is known in the art. Considering a channel that will carry the sequence, the sequence of length N is mapped to subcarriers in the frequency domain in step 408. For example, the sequence may be mapped to consecutive or distributed subcarriers. Specifically, the sequence is inserted at an interval of two subcarriers (2× mapping) or three subcarriers (3× mapping). Besides, the sequence may be mapped to subcarriers on a small block basis. Or the sequence may be mapped to subcarriers in a random-like manner. Then null subcarriers are inserted into the sequence, taking into account of oversampling or guard subcarriers, so that the sequence is of length Ndft in step 410. The sequence mapped to the subcarriers is converted to a time signal by Ndft-point Inverse Discrete Fourier Transform (IDFT) in step 412 and the PAPR (or CM) of the time signal is calculated in step 414. If the PAPR is smaller than the PAPR of a previous iteration, the iteration continues by Discrete Fourier Transform (DFT) in steps 416, 418 a, 418 b, 422, 424 and 426. On the contrary, if the PAPR, is larger than the PAPR of the previous iteration, the loop (steps 416, 418 a, 418 b, 422, 424 and 426) is terminated. Then the sequence resulting from the DFT is quantized according to its type (e.g. a BPSK type, a QPSK type, an 8PSK type, a poly-phase type, etc.) and thus a final sequence is acquired in steps 428 and 430. For example, the sequence resulting from the DFT may be quantized according to its type as follows.

-   -   BPSK type sequence: +1, −1     -   QPSK type sequence: +1, −1, +j, −j     -   Poly-phase type sequence:

${\mathbb{e}}^{j\;\phi} = \frac{a_{I} + {ja}_{Q}}{\sqrt{a_{I}^{2} + a_{Q}^{2}}}$

While the BPSK-type sequence and the QPSK-type sequence require the same volume of computation, the QPSK-type sequence (2 bits per element) requires twice as large a memory size as the BPSK-type sequence (1 bit per element).

Step 2: A sequence set satisfying PAPR<PAPR_THRESHOLD (or CM<CM_THRESHOLD) is selected from sequences generated in Step 1. PAPR_THRESHOLD or CM_THRESHOLD is a maximum allowed value for a channel that will deliver the sequences.

Step 3: A sequence set is finally selected from the sequence set selected in Step 2, which satisfies CORR<CORR_THRESHOLD. CORR_THRESHOLD may be an auto-/cross-correlation value and/or a differential auto-/cross-correlation value optimized for the channel. Steps 2 and 3 may be reversed in order. A sequence set may be additionally selected by applying a criterion different from the criteria used in Steps 2 and 3.

Embodiment 2 Sequence Extension by Reverse Operation

While this embodiment is applicable irrespective of time-domain or frequency-domain sequences, the following description is made in the context of frequency-domain sequences, for the convenience' sake. Given M sequences of length N, an n^(th) element of an m^(th) sequence (m=0, 1, . . . , M−1) is denoted by a^(m)(n). M sequences described in [Equation 1] may be extended to 2×M sequences described in [Equation 2] by a reverse operation. {a ^(m)(n)} m=0,1,L,M−1 n=0,1,L,N−1  [Equation 1] {a _(ext) _(—) _(rev) ^(m)(n)} ={a ^(m)(n);rev(a ^(m)(n))} m=0,1,L,M−1 n=0,1,L,N−1  [Equation 2] where the reverse operation rev (.) may be defined as

$\begin{matrix} \begin{matrix} {{a^{m_{1}}(n)} = {{rev}\left( {a^{m_{0}}(n)} \right)}} \\ {{= {a^{m_{0}}\left( {N - 1 - n} \right)}},{n = 0},1,L,{N - 1}} \end{matrix} & \left\lbrack {{Equation}\mspace{14mu} 3} \right\rbrack \end{matrix}$

The reverse operation-based sequence extension offers the following benefits.

If original complex sequences are random enough, sequences reverse to the original complex sequences and sets of the reverse sequences are also random enough. Optimization may be further performed by selecting reverse complex sequences having good characteristics.

The original complex sequences and their reverse complex sequences are identical in PAPR (or CM) properties. That is, if the original complex sequences have good PAPR (or CM) properties, their reverse complex sequences have also the same level of PAPR (or CM) properties.

There is no need for securing a memory size for storing the reverse complex sequences. This means that the memory size requirement can be reduced to a half.

Embodiment 3 Sequence Extension by Complex Conjugation

While this embodiment is applicable irrespective of time-domain or frequency-domain sequences, the following description is made in the context of frequency-domain sequences, for convenience' sake. Given M sequences of length N, an n^(th) element of an m^(th) sequence (m=0, 1, . . . , M−1) is denoted by a^(m)(n). M sequences described in [Equation 4] may be extended to 2×M sequences described in [Equation 5] by complex conjugation. {a ^(m)(n)} m=0,1,L,M−1 n=0,1,L,N−1  [Equation 4] {a _(ext) _(—) _(conj) ^(m)(n)} ={a ^(m)(n);(a ^(m)(n))*} m=0,1,L,M−1 n=0,1,L,N−1  [Equation 5] where the complex conjugation (.)* may be defined as conversion from a complex signal (a+jb) to a complex signal (a−jb) and conversion from the complex signal (a−jb) to the complex signal (a+jb).

The complex conjugation-based sequence extension offers the following benefits.

If original complex sequences are random enough, their complex conjugates and sets of the complex conjugates are also random enough. Optimization may be further performed by selecting complex conjugates having good characteristics.

The original complex sequences and their complex conjugates are identical in PAPR (or CM) properties. That is, if the original complex sequences have good PAPR (or CM) properties, their complex conjugates have also the same level of PAPR (or CM) properties.

The cross-correlations of an original sequence and its complex conjugate with respect to a received signal can be calculated by one computation. In general, there are M hypotheses for M sequences, thus requiring M cross-correlation computations. Specifically, M×N complex additions are required to calculate cross-correlations for M hypotheses of M QPSK-type sequences. However, in the case where M sequences are extended to 2×M sequences by complex conjugation, the amount of information is doubled but M×N complex additions are needed, that is, the required computation volume is the same, which will be described later in more detail with reference to FIG. 6.

The complex conjugates do not need an additional memory size. That is, the required memory size may be reduced to a half.

Table 2 below compares conventional sequences with extended sequences according to an embodiment of the present invention, in terms of computation complexity and memory size requirement. It is assumed herein that a total of M sequences are available to a transmitter and a receiver and each of the M sequences is of length N.

TABLE 2 Proposed QPSK type (conjugate BPSK type QPSK type and reverse) Number of real-  0  0  0 value multiplications Number of real- M(2N − 2) M(2N − 2) M(2N − 2)/2 value additions Normalized complexity 100% 100% 50% to BPSK type (%) Required memory size for M-set [in Bytes] $\left\lceil \frac{M \cdot N}{8} \right\rceil$ $\left\lceil \frac{2 \cdot M \cdot N \cdot}{8} \right\rceil$ $\left\lceil \frac{2 \cdot M \cdot N}{8} \right\rceil/4$ Normalized memory 100% 200% 50% size to BPSK type (%)

FIG. 5 is a block diagram of a transmitter for extending sequences by complex conjugation according to an embodiment of the present invention. For uplink transmission, a transmitter may be part of an MS and a receiver may be part of a BS.

Referring to FIG. 5, a first sequence provider 502 outputs a first sequence (hereinafter, referred to as a base sequence) to a constellation mapper 504 according to an inner setting. Depending on implementation, the base sequence may be selected from a set of pre-stored sequences in a memory, or generated from a sequence generator using a predetermined parameter. The constellation mapper 504 sequentially maps the received bit stream to complex values according to the type of the sequence. The sequence type may be an n-PSK type, an n-QAM type, a poly-phase type, etc. Here, n is an integer equal to or larger than 0. More specifically, the sequence type may be a QPSK type, an 8-PSK type, a 16-QAM type, a 64-QAM type, a poly-phase type, or the like. Especially, the QPSK type is preferable because it requires the same volume of computation as the BPSK type. For example, if the base sequence is a QPSK-type hexadecimal sequence, the constellation mapper 504 may sequentially map a hexadecimal sequence W_(i) ^((p)) to two QPSK symbols and w_(2i) ^((p)) and w_(2i+1) ^((p)), as expressed in [Equation 16].

$\begin{matrix} {{w_{2\; i}^{(p)} = {\exp\left( {j\frac{\pi}{2}\left( {{2 \cdot a_{i,0}^{(p)}} + a_{i,1}^{(p)}} \right)} \right)}}{w_{{2\; i} + 1}^{(p)} = {\exp\left( {j\frac{\pi}{2}\left( {{2 \cdot a_{i,2}^{(p)}} + a_{i,3}^{(p)}} \right)} \right)}}} & \left\lbrack {{Equation}\mspace{14mu} 16} \right\rbrack \end{matrix}$ where W_(i) ^((p))=2³·a_(i,0) ^((p))+2²·a_(i,1) ^((p))+2¹·a_(i,2) ^((p))+2⁰·a_(i,3) ^((p)). According to [Equation 16], binary numbers 00, 01, 10 and 11 are converted to 1, j, −1 and −j, respectively.

The constellation mapper 504 outputs the modulated complex values of the base sequence to a second sequence generator 506 and/or a subcarrier mapper 508. When the base sequence is to be transmitted, the constellation mapper 504 may output the complex values of the base sequence to the subcarrier mapper 508. On the other hand, if a second sequence (hereinafter, referred to as an extended sequence) extended, from the base sequence is to be transmitted, the constellation mapper 504 may output the complex values of the base sequence to the second sequence generator 506. Also, the constellation mapper 504 may output the QPSK symbols of the base sequence to the second sequence generator 506 irrespective of whether the base sequence is to be transmitted or not. That is, both the base sequence and the extended sequence may be generated and then one of the sequences is selected for transmission to a receiver.

The second sequence generator 504 may generate an extended sequence by subjecting the complex values of the base sequence to complex conjugation and/or a reverse operation. If there is no need for generating an extended sequence, the transmitter may not be provided with the second sequence generator 504. If M base sequences are available to the transmitter, the number of available sequences is increased up to 4×M by complex conjugation and the reverse operation. Let an n^(th) element of an m^(th) sequence (m=0, 1, . . . , M−1) be denoted by a^(m)(n). With the use of complex conjugation and the reverse operation, M base sequences expressed as [Equation 7] may be extended to 4×M sequences as described in [Equation 8].

$\begin{matrix} {\left\{ {a^{m}(n)} \right\}{{m = 0},1,L,{M - 1}}{{n = 0},1,L,{N - 1}}} & \left\lbrack {{Equation}\mspace{14mu} 7} \right\rbrack \\ {\begin{matrix} {\left\{ {a_{{ext}\;\_\;{hybrid}}^{m}(n)} \right\} = \left\{ {{a^{m}(n)};\left( {a^{m}(n)} \right)^{*};{{rev}\left( {a^{m}(n)} \right)};\left( {{rev}\left( {a^{m}(n)} \right)} \right)^{*}} \right\}} \\ {= \left\{ {{a^{m}(n)};\left( {a^{m}(n)} \right)^{*};{{rev}\left( {a^{m}(n)} \right)};{{rev}\left( \left( {a^{m}(n)} \right)^{*} \right)}} \right\}} \end{matrix}{{m = 0},1,L,{M - 1}}{{n = 0},1,L,{N - 1}}} & \left\lbrack {{Equation}\mspace{14mu} 8} \right\rbrack \end{matrix}$ where the complex conjugation (.)* and the reverse operation rev (.) have been defined before.

The subcarrier mapper 508 maps the complex values received from the constellation mapper 504 to subcarriers in the frequency domain. The complex values may be mapped to consecutive or distributed subcarriers, taking into account a channel that will carry the sequence. Then an Inverse Fast Fourier Transform (IFFT) module 510 converts the sequence mapped to the subcarriers to a time signal. The time signal is added with a CP and processed by digital-to-analog conversion, frequency upconversion, and power amplification, prior to transmission to the receiver.

FIG. 6 is a block diagram of a receiver for detecting a sequence according to an embodiment of the present invention. For uplink transmission, a receiver may be part of a BS, whereas for downlink transmission, a receiver may be part of an MS.

Referring to FIG. 6, an index mapper 602 distributes a received signal to first adders 604, 606, 608 and 610. The received signal may be expressed as r(n)=r ₁(n)+jr _(Q)(n)  [Equation 9] where the subscript I represents an in-phase component, and the subscript Q represents a quadrature-phase component. Hereinbelow, the subscripts I and Q are used in the same meanings as above.

The first adders 604, 606, 608 and 610 perform preliminary computations required for calculating the correlation of each base sequence m₀ selected from among total base sequences and the correlation of its extended sequence m₁. The base sequence m₀ and its extended sequence m₁ may be expressed as m ₀ ^(th) sequence: a ^(m) ⁰ (n)=a ₁ ^(m) ⁰ (n)+ja _(Q) ^(m) ⁰ (n) m ₁ ^(th) sequence: a ^(m) ¹ (n)=a ₁ ^(m) ¹ (n)+ja _(Q) ^(m) ¹ (n) a ^(m) ¹ (n)=(a ^(m) ⁰ (n))*  [Equation 10]

For example, the first adders 604, 606, 608 and 610 may carry out preliminary computations required for calculating correlations by [Equation 11].

$\begin{matrix} {{{{R_{II}(d)} = {\frac{1}{N}{\sum\limits_{n = 0}^{N - 1}\left( {{r_{I}\left( {n + d} \right)}{a_{I}^{m_{0}}(n)}} \right)}}}{R_{QQ}(d)} = {\frac{1}{N}{\sum\limits_{n = 0}^{N - 1}\left( {{r_{Q}\left( {n + d} \right)}{a_{Q}^{m_{0}}(n)}} \right)}}}{{I_{QI}(d)} = {\frac{1}{N}{\sum\limits_{n = 0}^{N - 1}\left( {{r_{Q}\left( {n + d} \right)}{a_{I}^{m_{0}}(n)}} \right)}}}{{I_{IQ}(d)} = {\frac{1}{N}{\sum\limits_{n = 0}^{N - 1}\left( {{r_{I}\left( {n + d} \right)}{a_{Q}^{m_{0}}(n)}} \right)}}}} & \left\lbrack {{Equation}\mspace{14mu} 11} \right\rbrack \end{matrix}$ where d represents a delay. Hereinbelow, d denotes the same.

Referring to [Equation 10], the preliminary computations required for calculating the correlations of the base sequence m₀ and the extended sequence m₁ may be performed using only the base sequence m₀.

The first adders 604, 606, 608 and 610 output the preliminary computation values to second adders 612, 614, 616 and 618. The second adders 612, 614, 616 and 618 calculate final correlations by appropriately combining the preliminary computation values. Specifically, the two second adders 612 and 616 calculate the real and imaginary values of the correlation of the base sequence m₀ and the other two second adders 614 and 618 calculate the real and imaginary values of the correlation of the extended sequence m₁, The relationship between the first adders 604, 606, 608 and 610 and the second adders 612, 164, 616 and 618 may be described with reference to [Equation 12] and [Equation 13].

[Equation 12] describes the cross-correlation between the received signal and the base sequence m₀.

$\begin{matrix} \begin{matrix} {{R^{m_{0}}(d)} = {\frac{1}{N}{\sum\limits_{n = 0}^{N - 1}{{r\left( {n + d} \right)} \cdot \left( {a^{m_{0}}(n)} \right)^{*}}}}} \\ {= {\frac{1}{N}{\sum\limits_{n = 0}^{N - 1}\left\lbrack {\left( {{{r_{I}\left( {n + d} \right)}{a_{I}^{m_{0}}(n)}} + {{r_{Q}\left( {n + d} \right)}{a_{Q}^{m_{0}}(n)}}} \right) + {j\left( {{{r_{Q}\left( {n + d} \right)}{a_{I}^{m_{0}}(n)}} - {{r_{I}\left( {n + d} \right)}{a_{Q}^{m_{0}}(n)}}} \right)}} \right\rbrack}}} \\ {= {\left( {{R_{II}(d)} + {R_{QQ}(d)}} \right) + {j\left( {{I_{QI}(d)} - {I_{IQ}(d)}} \right)}}} \end{matrix} & \left\lbrack {{Equation}\mspace{14mu} 12} \right\rbrack \end{matrix}$

The components of the final expression of [Equation 12] are the outputs of the first adders 604, 606, 608 and 610 and the real and imaginary parts are the outputs of the second adders 612 and 616.

[Equation 13] describes the cross-correlation between the received signal and the extended sequence m₁.

$\begin{matrix} \begin{matrix} {{R^{m_{1}}(d)} = {\frac{1}{N}{\sum\limits_{n = 0}^{N - 1}{{r\left( {n + d} \right)} \cdot \left( {a^{m_{1}}(n)} \right)^{*}}}}} \\ {= {\frac{1}{N}{\sum\limits_{n = 0}^{N - 1}{{r\left( {n + d} \right)} \cdot {a^{m_{0}}(n)}}}}} \\ {= {\frac{1}{N}{\sum\limits_{n = 0}^{N - 1}\left( {\left( {{{r_{I}\left( {n + d} \right)}{a_{I}^{m_{0}}(n)}} - {{r_{Q}\left( {n + d} \right)}{a_{Q}^{m_{0}}(n)}}} \right) + {j\left( {{{r_{Q}\left( {n + d} \right)}{a_{I}^{m_{0}}(n)}} + {{r_{I}\left( {n + d} \right)}{a_{Q}^{m_{0}}(n)}}} \right)}} \right)}}} \\ {= {\left( {{R_{II}(d)} - {R_{QQ}(d)}} \right) + {j\left( {{I_{QI}(d)} + {I_{IQ}(d)}} \right)}}} \end{matrix} & \left\lbrack {{Equation}\mspace{14mu} 13} \right\rbrack \end{matrix}$

The components of the final expression of [Equation 13] are the outputs of the first adders 604, 606, 608 and 610 and the real and imaginary parts are the outputs of the second adders 614 and 618.

The blocks illustrated in FIG. 6 may be used for calculating differential correlations with respect to a received signal. The function of each block has been described above in detail and thus the following description is made of calculation of differential correlations by equations.

A differential received signal may be expressed as (r(n))′=(r ₁(n))′+j(r _(Q)(n))′ (r(n))′=(r(n))*·r(n+1),n=0,1,L,N−2  [Equation 14]

A differential base sequence m₀ and a differential extended sequence m₁ are expressed as m ⁰th sequence: (a ^(m) ⁰ (n))′=(a ₁ ^(m) ⁰ (n))′+j(a _(Q) ^(m) ⁰ (n))′ (a ^(m) ⁰ (n))′=(a ^(m) ⁰ (n))*·a ^(m) ⁰ (n+1),n=0,1,L,N−2 m ¹th sequence: (a ^(m) ¹ (n))′=(a ₁ ^(m) ¹ (n))′+j(a _(Q) ^(m) ¹ (n))′ (a ^(m) ¹ (n))′=(a ^(m) ¹ (n))*·a ^(m) ¹ (n+1),n=0,1,L,N−2  [Equation 15]

The first adders 604, 606, 608 and 610 may perform preliminary computations by [Equation 16], for calculation of correlations.

$\begin{matrix} {{{\left( {R_{II}(d)} \right)^{\prime} = {\frac{1}{N - 1}{\sum\limits_{n = 0}^{N - 2}\left( {\left( {r_{I}\left( {n + d} \right)} \right)^{\prime}\left( {a_{I}^{m_{0}}(n)} \right)^{\prime}} \right)}}}\left( {R_{QQ}(d)} \right)^{\prime} = {\frac{1}{N - 1}{\sum\limits_{n = 0}^{N - 2}\left( {\left( {r_{Q}\left( {n + d} \right)} \right)^{\prime}\left( {a_{Q}^{m_{0}}(n)} \right)^{\prime}} \right)}}}{\left( {I_{QI}(d)} \right)^{\prime} = {\frac{1}{N - 1}{\sum\limits_{n = 0}^{N - 2}\left( {\left( {r_{Q}\left( {n + d} \right)} \right)^{\prime}\left( {a_{I}^{m_{0}}(n)} \right)^{\prime}} \right)}}}{\left( {I_{IQ}(d)} \right)^{\prime} = {\frac{1}{N - 1}{\sum\limits_{n = 0}^{N - 2}\left( {\left( {r_{I}\left( {n + d} \right)} \right)^{\prime}\left( {a_{Q}^{m_{0}}(n)} \right)^{\prime}} \right)}}}} & \left\lbrack {{Equation}\mspace{14mu} 16} \right\rbrack \end{matrix}$

The first adders 604, 606, 608 and 610 output the preliminary computation values to the second adders 612, 614, 616 and 618. The relationship between the first adders 604, 606, 608 and 610 and the second adders 612, 164, 616 and 618 may be described with reference to [Equation 17] and [Equation 18].

[Equation 17] describes the differential correlation between the received signal and the base sequence m₀.

$\begin{matrix} \begin{matrix} {\left( {R^{m_{0}}(d)} \right)^{\prime} = {\frac{1}{N - 1}{\sum\limits_{n = 0}^{N - 2}{\left( {r\left( {n + d} \right)} \right)^{\prime} \cdot \left( \left( {a^{m_{0}}(n)} \right)^{\prime} \right)^{*}}}}} \\ {= {\frac{1}{N - 1}{\sum\limits_{n = 0}^{N - 2}\begin{bmatrix} {\left( {{\left( {r_{I}\left( {n + d} \right)} \right)^{\prime}\left( {a_{I}^{m_{0}}(n)} \right)^{\prime}} + {\left( {r_{Q}\left( {n + d} \right)} \right)^{\prime}\left( {a_{Q}^{m_{0}}(n)} \right)^{\prime}}} \right) +} \\ {j\left( {{\left( {r_{Q}\left( {n + d} \right)} \right)^{\prime}\left( {a_{I}^{m_{0}}(n)} \right)^{\prime}} - {\left( {r_{I}\left( {n + d} \right)} \right)^{\prime}\left( {a_{Q}^{m_{0}}(n)} \right)^{\prime}}} \right)} \end{bmatrix}}}} \\ {= {\left( {\left( {R_{II}(d)} \right)^{\prime} + \left( {R_{QQ}(d)} \right)^{\prime}} \right) + {j\left( {\left( {I_{QI}(d)} \right)^{\prime} - \left( {I_{IQ}(d)} \right)^{\prime}} \right)}}} \end{matrix} & \left\lbrack {{Equation}\mspace{14mu} 17} \right\rbrack \end{matrix}$

The components of the final expression of [Equation 17] are the outputs of the first adders 604, 606, 608 and 610 and the real and imaginary parts are the outputs of the second adders 612 and 616.

[Equation 18] describes the differential correlation between the received signal and the extended sequence m₁.

$\begin{matrix} \begin{matrix} {\left( {R^{m_{1}}(d)} \right)^{\prime} = {\frac{1}{N - 1}{\sum\limits_{n = 0}^{N - 2}{\left( {r\left( {n + d} \right)} \right)^{\prime} \cdot \left( \left( {a^{m_{1}}(n)} \right)^{\prime} \right)^{*}}}}} \\ {= {\frac{1}{N - 1}{\sum\limits_{n = 0}^{N - 2}{\left( {r\left( {n + d} \right)} \right)^{\prime} \cdot \left( {a^{m_{0}}(n)} \right)^{\prime}}}}} \\ {= {\frac{1}{N - 1}{\sum\limits_{n = 0}^{N - 2}\begin{pmatrix} {\left( {{\left( {r_{I}\left( {n + d} \right)} \right)^{\prime}\left( {a_{I}^{m_{0}}(n)} \right)^{\prime}} - {\left( {r_{Q}\left( {n + d} \right)} \right)^{\prime}\left( {a_{Q}^{m_{0}}(n)} \right)^{\prime}}} \right) +} \\ {j\left( {{\left( {r_{Q}\left( {n + d} \right)} \right)^{\prime}\left( {a_{I}^{m_{0}}(n)} \right)^{\prime}} + {\left( {r_{I}\left( {n + d} \right)} \right)^{\prime}\left( {a_{Q}^{m_{0}}(n)} \right)^{\prime}}} \right)} \end{pmatrix}}}} \\ {= {\left( {\left( {R_{II}(d)} \right)^{\prime} - \left( {R_{QQ}(d)} \right)^{\prime}} \right) + {j\left( {\left( {I_{QI}(d)} \right)^{\prime} + \left( {I_{IQ}(d)} \right)^{\prime}} \right)}}} \end{matrix} & \left\lbrack {{Equation}\mspace{14mu} 18} \right\rbrack \end{matrix}$

The components of the final expression of [Equation 18] are the outputs of the first adders 604, 606, 608 and 610 and the real and imaginary parts are the outputs of the second adders 614 and 618.

In accordance with the sequence detection method illustrated in FIG. 6, the correlations (or differential correlations) of the base sequence m₀ and its extended sequence m₁ can be calculated by one computation. While FIG. 6 has been described in the context of a sequence extended by complex conjugation, it is a mere exemplary application and the sequence detection method illustrated in FIG. 6 is readily applied to calculation of the correlation of an extended sequence created by a reverse operation. For example, the index mapper 602 may distribute a received signal on which the reverse operation has been performed to the first adders 604, 606, 608 and 610. In another example, the first adders 604, 606, 608 and 610 may perform preliminary computations using a base sequence on which the reverse operation has been performed.

Simulation: Analysis of Properties of Base Sequences and their Extended Sequences

Table 3 below lists six base sequences generated according to an embodiment of the present invention. The base sequences have indexed with 0 to 5 (p denotes an index) and are expressed in a hexadecimal format.

A modulated sequence mapped to subcarriers are obtained by converting a hexadecimal sequence W_(i) ^((p)) to two QPSK symbols w_(2i) ^((p)) and w_(2i+1) ^((p)). Here, i is an integer ranging from 0 to 107. [Equation 19] describes an example of modulating the base sequence W_(i) ^((p)) to two QPSK symbols.

$\begin{matrix} {{w_{2i}^{(p)} = {\exp\left( {j\frac{\pi}{2}\left( {{2 \cdot a_{i,0}^{(p)}} + a_{i,1}^{(p)}} \right)} \right)}}{w_{{2i} + 1}^{(p)} = {\exp\left( {j\frac{\pi}{2}\left( {{2 \cdot a_{i,2}^{(p)}} + a_{i,3}^{(p)}} \right)} \right)}}} & \left\lbrack {{Equation}\mspace{14mu} 19} \right\rbrack \end{matrix}$ where W_(i) ^((p))=a_(i,0) ^((p))+2²·a_(i,1) ^((p))+2¹·a_(i,2) ^((p))+2⁰·a_(i,3) ^((p)). According to the above equation, binary values 00, 01, 10 and 11 are converted respectively to 1, j, −1 and −j. However, this is a mere exemplary application and thus the base sequence W_(i) ^((p)) may be converted to QPSK symbols by any other similar equation.

TABLE 3 p Sequence to modulate, W_(i) ^((p)) (in hexadecimal format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

The six base sequences listed in Table 3 may be extended to 24 sequences by complex conjugation and the reverse operation. 18 extended sequences except the base sequences are indicated by indexes (p) 6 to 23, expressed as

$\begin{matrix} {w_{k}^{(p)} = \left\{ \begin{matrix} \left( w_{k}^{({p - 6})} \right)^{*} & {{{{for}\mspace{14mu} 6} \leq p < 12},} \\ w_{215 - k}^{({p - 12})} & {{{{for}\mspace{14mu} 12} \leq p < 18},} \\ \left( w_{215 - k}^{({p - 18})} \right)^{*} & {{{{for}\mspace{14mu} 18} \leq p < 24},} \end{matrix} \right.} & \left\lbrack {{Equation}\mspace{14mu} 20} \right\rbrack \end{matrix}$ where k is an integer ranging from 0 to 215.

The properties of the 24 sequences generated by use of Table 3 and [Equation 20] were measured in 512-FFT mode, and conventional 114 preamble sequences used in the IEEE 802.16e system were used as a comparison group (refer to IEEEStd 802.16E-2005, Table 309b).

To investigate the sequence properties, cross-correlations, differential cross-correlations, auto-correlations, differential auto-correlations, and CM values were measured (refer to [Equation 9] to [Equation 18]). The measurements are illustrated in FIGS. 7A to 7E, and Table 4, Table 5, and Table 6.

TABLE 4 Differential Cross-correlation cross-correlation 802.16e(114) Examples(24) 802.16e(114) Examples(24) Min 0.000 0.000 0.000 0.005 Max 0.303 0.250 0.239 0.105 Mean 0.074 0.060 0.065 0.048 Median 0.070 0.056 0.056 0.043 std. dev. 0.039 0.032 0.049 0.023

TABLE 5 Differential Auto-correlation auto-correlation 802.16e(114) Examples(24) 802.16e(114) Examples(24) Min 0.091 0.083 0.127 0.144 Max 0.203 0.124 0.408 0.173 Mean 0.134 0.096 0.216 0.157 Median 0.133 0.091 0.211 0.153 std. dev. 0.020 0.015 0.044 0.011

TABLE 6 Cubic Metric 802.16e(114) Examples(24) Min 0.790 0.994 Max 1.389 1.205 Mean 1.128 1.085 Median 1.139 1.077 std. dev. 0.131 0.063

Referring to FIGS. 7A to 7E, Table 4, Table 5 and Table 6, it is noted that both the base sequences and the extended sequences that are obtained by performing complex conjugation and the reverse operation on the base sequences have excellent properties, when they are evaluated according to the criteria described in Embodiment 1.

Application Example Signal Transmission Using Base Sequence and its Extended Sequence

A description will be made of an example of applying sequences generated according to an embodiment of the present invention to a DL sync channel and a ranging channel, with the appreciation that the sequences are also applicable to transmission of many other channels and signals. For example, the sequences according to the embodiment of the present invention may be used for time/frequency synchronization, channel estimation (RS or pilot), control channels (e.g. CQI, ACK/NACK, etc.), scrambling, CDM, midamble, received signal measurement (e.g. Received Signal Strength Indication (RSSI), Signal to Noise ratio (SNR), Signal to Interference and Noise Ratio (SINR), etc.). While the application example is described in the context of IEEE 802.16m, it may be used for any other communication system using sequences (e.g. the 3GPP system).

FIG. 8 illustrates a radio frame structure in the IEEE 802.16m system. The radio frame structure is applicable to Frequency Division Duplex (FDD), Half-Frequency Division Duplex (H-FDD), Time Division Duplex (TDD), etc.

Referring to FIG. 8, the radio frame structure includes 20-ms superframes SU0 to SU3 supporting a 5-MHz, 8.75-MHz, 10-MHz or 20-MHz bandwidth. Each superframe is divided into four equally sized 5-ms frames F0 to F3, starting with a SuperFrame Header (SFH). Each frame includes eight subframes SF0 to SF7, each carrying a DL sync channel. Each subframe is allocated for downlink or uplink transmission. There are three types of subframes according to CPs. Specifically, a subframe may include 5, 6 or 7 OFDMA symbols. Each OFDMA symbol is divided into a CP and a useful symbol. The CP is generally a copy of the last part of the useful symbol, attached before the useful symbol. Therefore, the phase is continuous between the CP and the useful symbol. The length of the CP may be set but not limited to ⅛ or ⅙ of the length of the useful symbol. Table 7 illustrates some OFDMA parameters defined for the IEEE 802.16m system.

TABLE 7 Nomial Channel Bandwidth (MHz) 5 7 8.75 10 20 Over-sampling Factor 28/25 8/7 8/7 28/25 28/25 Sampling Frequency, F_(s) (MHz) 5.6 8 10 11.2 22.4 FFT Size, N_(FFT) 512 1024 1024 1024 2048 Sub-Carrier Spacing, Δf (kHz) 10.937500 7.812500 9.765625 10.937500 10.937500 Useful Symbol Time, T_(b) (us) 91.429 128 102.4 91.429 91.429

FIG. 9 illustrates an exemplary transmission of a synchronization channel in the IEEE 802.16m system. This embodiment is based on the assumption of IEEE 802.16m only mode.

Referring to FIG. 9, one superframe all, SU2, SU3 or SU4 carries four Synchronization Channels (SCHs) in the IEEE 802.16m system. There are two types of DL SCHs, Primary SCH (P-SCH) and Secondary SCH (S-SCH) in the IEEE 802.16m system. The P-SCH and the S-SCH carry a Primary Advanced Preamble (PA-Preamble) and a Secondary Advanced Preamble (SA-Preamble), respectively. In both FDD mode and TDD mode, each DL SCH may be transmitted in the first OFDMA symbol of a frame. The PA-Preamble is usually used for acquisition of time/frequency synchronization, a partial cell ID, and some information such as system information, whereas the SA-Preamble is generally used for acquiring a final physical cell ID. The SA-Preamble may also be used for measuring an RSSI. The PA-Preamble is delivered in the first frame F0 and the SA-Preamble is delivered in the second, third and fourth frames F1, F2 and F03.

FIG. 10 illustrates subcarriers to which a PA-preamble is mapped.

Referring to FIG. 10, the PA-Preamble is of length 216 regardless of an FFT size. The PA-Preamble is inserted at an interval of two subcarriers, with 0s filled at the other subcarriers. For example, the PA-Preamble may be inserted at subcarriers 41, 43, . . . , 469 and 471. The PA-Preamble may carry information about a BS type, a system bandwidth, etc. If subcarrier 256 is reserved for Direct Current (DC), the allocation of subcarriers for the sequence may be determined by PAPreambleCarryerSet=2×k+41  [Equation 21] where k is an integer ranging from 0 to 215.

For example, a QPSK-type sequence of length 216 illustrated in Table 3 may be used for a PA-Preamble. For the convenience's sake, Table 8 lists the six base sequences again.

TABLE 8 p Sequence to modulate, W_(i) ^((p)) (in hexadecimal format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

The description made with reference to FIG. 3 may be referred to for details of sequence conversion and extension of sequences by complex conjugation and/or a reverse operation. It can be concluded that a BS may transmit a total of 24 PA-Preambles based on the six base sequences listed in Table 8.

FIG. 11 illustrates an exemplary mapping of SA-Preambles to frequency areas.

Referring to FIG. 11, the length of the SA-Preamble may vary with an FFT size. For example, the lengths of the SA-Preamble may be 144, 288, and 576 for 512-FFT, 1024-FFT and 2048-FFT, respectively. If subcarrier 256, subcarrier 512 and subcarrier 1024 are reserved as DC components for the 512-FFT, 1024-FFT and 2048-FFT, respectively, allocation of subcarriers for an SA-Preamble may be determined by

$\begin{matrix} {{SAPreambleCarrierSet}_{n} = {n + {3 \cdot k} + {40 \cdot \frac{N_{SAP}}{144}} + \left\lfloor \frac{2 \cdot k}{N_{SAP}} \right\rfloor}} & \left\lbrack {{Equation}\mspace{14mu} 22} \right\rbrack \end{matrix}$ where n represents the index of an SA-Preamble carrier set, ranging from 0 to 2, indicating a segment ID, N_(SAP) represents the length of the SA-Preamble, and k is an integer ranging from 0 to N_(SAP)−1.

Each cell has a cell ID (IDcell) ranging from 0 to 767. The cell ID is defined by a segment index and an index per segment. The cell ID may be determined by IDcell=256×n+Idx  [Equation 23] where n represents the index of the SA-Preamble carrier set, ranging form 0 to 2, indicating a segment ID, and Idx is an integer from 0 to 255.

For % the 512-FFT, an SA-Preamble of length 144 is divided into eight subblocks, namely A, B, C, D, E, F, G and H. The length of each subblock is 18. For each segment ID, different sequence subblocks are defined. In the IEEE 802.16m system, known SA-Preambles are hexadecimal numbers of the BPSK type. 18 LSBs of a hexadecimal sequence for each subblock are used to represent binary sequences. A binary sequence {0,1} is mapped to real values {+1, −1}, respectively. SA-Preambles defined for the IEEE 802.16m system will be described later in detail. In the 512-FFT, the subblocks A, B, C, D, E, F, G and H are sequentially modulated and mapped to an SA-Preamble subcarrier set corresponding to a segment ID. For a higher FFT size, the basic subblocks A, B, C, D, E, F, G and H are repeated in the same order. For example, for 1024-FFT, subblocks E, F, G, H, A, B, C, D, E, F, G, H, A, B, C and D are sequentially modulated and then mapped to an SA-Preamble subcarrier set corresponding to a segment ID.

A circular shift may be applied to three consecutive subcarriers after subcarrier mapping according to [Equation 22]. Each subblock has the same offset and the circular shift pattern [2, 1, 0, . . . , 2, 1, 0, . . . , 2, 1, 0, 2, 1, 0, DC, 1, 0, 2, 1, 0, 2, . . . , 1, 0, 2, . . . , 1, 0, 2] is used for each subblock. Herein, the circular shift includes a right circular shift. For a 512-FFT size, each of the subblocks A, B, C, D, E, F, G and H may experience the right circular shift (0, 2, 1, 0, 1, 0, 2, 1). FIG. 12 illustrates an exemplary SA-Preamble structure for 512-FFT.

FIGS. 13, 14 and 15 illustrate exemplary SA-Preamble structures in multi-antenna systems. The SA-Preamble structures are designed for 512-FFT, 1024-FFT and 2048-FFT, respectively.

Referring to FIGS. 13, 14 and 15, an SA-Preamble may be interleaved on a plurality of antennas. The SA-Preamble interleaving is not limited to any specific method. For example, when a multi-antenna system has 2^(n) transmission antennas, the SA-Preamble may be interleaved as described in Table 9. For the convenience' sake, eight consecutive subblocks {E, F, G, H, A, B, C, D} are collectively referred to as a block and reference characters are defined as follows.

-   -   N_(t): the number of transmission antennas     -   N_(b): the total number of blocks     -   N_(s): the total number of subblocks (8×N_(b))     -   N_(bt): the number of blocks per antenna (N_(b)/N_(t))     -   N_(st): the number of subblocks per antenna (N_(s)/N_(t))

[Table 9]

If (N_(bt)>=1)

Distribute consecutive blocks across the N_(t) antennas

For a given antenna, a block is repeated with period N_(t)

Block position for antenna (t+1) is t+p×N_(t), where t=0, 1, 2, . . . , N_(t)−1, p=0, 1, 2, . . . , N_(bt)−1

Else If (N_(st)=4)

Interleave the 8 subblocks {E, F, G, H, A, B, C, D} across two consecutive antennas

Block [E, 0, G, 0, A, 0, C, 0] is allocated to antenna i at block position, floor(i/2)

Block [0, F, 0, H, 0, B, 0, D] is allocated to antenna i+1 at block position, floor(i+½), where i=0, 2, 4, . . . , N_(t).

Else If (N_(st)=2)

Interleave the 8 subblocks {E, F, G, H, A, B, C, D} across four consecutive antennas

Block [E, 0, 0, 0, A, 0, 0, 0] is allocated to antenna i at block position, floor(i/4)

Block [0, 0, G, 0, 0, 0, C, 0] is allocated to antenna i+1 at block position, floor((i+1)/4)

Block [0, F, 0, 0, 0, B, 0, 0] is allocated to antenna i+2 at block position, floor((i+2)/4)

Block [0, 0, 0, H, 0, 0, 0, D] is allocated to antenna i+3 at block position, floor((i+3)/4), where i=0, 4, 8, . . . , N_(t).

Else

Interleave the 8 subblocks {E, F, G, H, A, B, C, D} across four consecutive antennas

Block [E, 0, 0, 0, 0, 0, 0, 0] is allocated to antenna i at block position, floor(i/8)

Block [0, F, 0, 0, 0, 0, 0, 0] is allocated to antenna i+1 at block position, floor((i+1)/8)

Block [0, 0, G, 0, 0, 0, 0, 0] is allocated to antenna i+2 at block position, floor((i+2)/8)

Block [0, 0, 0, H, 0, 0, 0, 0] is allocated to antenna i+3 at block position, floor((i+3)/8),

Block [0, 0, 0, 0, 0, A, 0, 0] is allocated to antenna i+4 at block position, floor((i+4)/8)

Block [0, 0, 0, 0, 0, B, 0, 0] is allocated to antenna i+5 at block position, floor((i+5)/8)

Block [0, 0, 0, 0, 0, 0, C, 0] is allocated to antenna i+6 at block position, floor((i+6)/8)

Block [0, 0, 0, 0, 0, 0, 0, D] is allocated to antenna i+7 at block position, floor((i+7)/8), where i=0, 8, . . . , N_(t).

In each frame containing an SA-Preamble, the transmission structures may be rotated across the transmission antennas. For example, in a 512-FFT system with four transmission antennas, subblocks [A, 0, 0, 0, E, 0, 0, 0] are transmitted through a first antenna and subblocks [0, 0, 0, D, 0, 0, 0, H] are transmitted through a fourth antenna, in an f^(th) frame containing an SA-Preamble. Then in an (f+1)^(th) frame containing an SA-Preamble, subblocks [0, 0, 0, D, 0, 0, 0, H] may be transmitted through the first antenna and subblocks [A, 0, 0, 0, E, 0, 0, 0] may be transmitted through the fourth antenna.

Known BPSK-Type SA-Preambles

Table 10 tabulates known SA-Preambles for the IEEE 802.16m system. In Table 10, 256 BPSK-type sequences defined for segment 0 are illustrated. For sequences for segment 1 and segment 2, refer to Table 658 and Table 659 in IEEE 802.16m-09/0010r2. The 18 LSBs of each subblock are used to represent binary sequences. Binary values {0,1} are mapped to real values {+1, −1}, respectively.

TABLE 10 Table 657-SA Preamble for n = 0 (Segment 0) blk Idx A B C D E F G H 0 2A1FA 3DE76 2CCA0 15722 2A509 0E904 0C5D5 10774 1 23836 378C2 3BFDA 1A401 27FBD 1FA0E 02DA2 03949 2 211B7 2855B 25BCD 17F09 32910 090FB 07C8C 0CC20 3 3836C 22AD2 349DB 183CA 3B2CA 09CE3 12C6C 12282 4 26F2D 3DFF6 315B1 1234E 2A0AF 1BEAD 0CE1A 03B36 5 3D1C3 23AFF 22B8B 1A9DE 3E5A3 08235 1B7AF 136AD 6 30709 2FA42 31CBD 0F424 3E570 1D9A8 008AA 0F9D3 7 38E39 33279 2FF20 08825 3EBCB 1DCCD 15D61 0DECF 8 21779 264CB 3230D 0AE06 35140 1CA03 0E570 059BE 9 270A8 2ADE1 3B6B7 1A629 29B35 0C99D 0AC04 03C08 10 30F40 3363F 361F3 00A13 36A99 1CC91 0F8CB 1EDD2 11 28A18 2F6B4 20AE4 0BA1C 25EA6 063B1 1C5F4 1B85B 12 26821 3A5B3 3EE12 08B45 3C594 016FD 02A94 054F7 13 3AC52 33B19 3E9C6 1609E 2EB43 065DC 08E91 0B952 14 32B67 298C0 20ED5 1A699 343F1 1D965 17927 07EF0 15 3AC4D 35BBC 29713 06420 28132 0B1D1 16A5B 176B1 16 28B79 22EA0 341E6 088EF 23052 1944A 1452F 0176D 17 3F8D6 20E09 3791E 1762C 3E8DA 13B94 0D4DB 15807 18 2080F 2E4D0 291F6 153B4 368A2 1AD5C 161AD 06C1E 19 27DC1 21FEA 2B540 1F1BF 3C773 05585 11644 1A59A 20 34CAB 2FE84 3E702 02C06 3AEEC 0F583 0CD57 04AD1 21 24991 3CF91 2AEE1 0D6EB 32F0D 07E07 1BB88 0D321 22 30822 398DC 2F478 04B4D 3361B 156BE 0D5AC 11E4F 23 3C355 36EEE 35068 085B0 2FCBB 0855E 1466C 050CB 24 3ECC3 2A52B 3DFCC 03ADF 2DF1D 05C43 05A8A 19D9F 25 2FF61 2B725 37F3E 14092 3E129 16F47 0E8CC 1E8B8 26 235C9 275AC 22420 175DB 2118A 06177 0FB7A 00DF4 27 299F2 3D5DF 34668 12631 20E22 1BC59 049E8 1209C 28 2F3F4 34251 36429 0B0CF 2CCE6 109F4 0BA71 1D846 29 32816 25786 259F6 0CD01 3BA6A 1FC99 1DB12 1FED3 30 3DF50 3EE78 2B708 19594 371DB 03C88 0794A 07B3C 31 3D053 3DF2C 273CC 165F6 2C436 09ED4 0C879 13571 32 3960E 26F45 33FBE 068B6 3C521 106C6 09C50 11A56 33 2B95B 385EE 3B804 03545 29D2E 01B2E 02F70 1C65A 34 3CC0F 201B2 28467 1D38A 258A4 0C37A 0F145 04C70 35 383EC 3A316 24A63 190FA 3AE63 0918B 1FE42 1DDD7 36 2C261 228F1 28B79 0D393 2DB97 1B131 105E9 1438A 37 2497F 292F3 2C371 12C8E 20A1D 14110 1A04F 0B028 38 372E6 304B6 2F16A 188E6 3688E 1D23F 0490A 1041F 39 34FFB 38DCD 25577 19DEF 251E4 00C71 01E27 15622 40 3D6FA 305DF 2AC73 1C8D6 3E5CA 00717 0851C 109B2 41 362C1 2723E 27046 134A2 3FCC3 0D635 0394C 02EE9 42 348E8 3972D 3D001 1315A 35EAE 1702C 11E63 0F600 43 2C7BB 2F28F 2015D 09325 24EE9 1F67B 1F377 1611E 44 2B3BE 27DA5 36FDF 0DD50 39C46 00D4E 1E49C 067C4 45 2614D 340BC 2B4F8 16369 31213 13F3F 0A130 1ECA1 46 26417 21306 33D64 130EF 39BC4 1751D 08580 13160 47 3F902 2A37D 361C8 19A54 3DB69 0C335 1171F 0F022 48 3AB24 3D551 3C977 1360A 3F0BC 021CF 14382 02E59 49 35E1E 26090 35738 158AF 3D8C2 1FAD3 01313 0868B 50 3AC9F 315BF 263B8 1C684 385D9 17DB0 0FDDD 1D8FF 51 2F482 3AC19 34498 0E65B 3D719 14DE7 17762 14F4D 52 2E248 348C5 35A9A 0D76F 3708E 1346E 1F653 1F281 53 2CFA2 28F3F 3A58F 15E30 3B0E7 1F67E 0187C 112E8 54 3DB3B 3D41B 3AC0A 0C7C3 2E71F 1946D 1C64B 06E3C 55 2C726 36DE4 252BF 1061D 25194 0FB2B 09B51 16744 56 229F2 32990 358C3 1BB30 2F008 0D0A2 051D3 17530 57 235C2 2EC63 2C3F8 16217 2183A 14406 0B8C8 10E19 58 25552 341AF 20810 073A1 2E1FB 1D58C 0F35C 0320E 59 39B09 209E8 35261 1D675 3A0DE 0A8A1 1EFF9 01F98 60 20A28 3792C 3F334 045D2 3D786 1A95C 08CB0 18DA1 61 29FE5 3E383 22DDB 14256 37B29 00FB1 10420 018A1 62 3F05B 30317 24779 1BB7B 269BC 0C785 04A86 118AA 63 3739A 373CC 2C605 138A5 22112 00ABC 134D5 0FABE 64 339EC 3DA7E 2256C 10CFF 2593D 0DE36 032EC 1E199 65 3B3AD 264C2 3BDE5 11FDE 38AA1 1D1EF 1821E 0EE3E 66 3D528 38958 23331 0E8B9 26FCE 127B8 0DA80 1DCF8 67 3DA17 2AB6D 26ECE 0401A 3FBD8 17692 1E7F2 05FF2 68 21ED1 2F966 316F9 071F2 3ACF4 025A9 047E4 01DDC 69 2904C 3C712 2C41E 06801 2F9F2 076BA 112C6 09E1C 70 2726A 2F4B0 25E3D 15DE6 308B1 0D7FB 1196C 0BD53 71 289FD 3495C 2C772 0D1C6 2D855 1BA59 01297 00B23 72 2E936 37553 31EE9 1E026 27D7F 134DE 146D7 1FBB6 73 37A24 36101 34473 07695 2D6C2 1C05F 06FFB 1443E 74 3D1AF 29853 36B2C 0C23D 2B5BF 0647F 12084 09C1D 75 2964F 30824 236A0 11F14 3EF38 0342E 1F876 16A2F 76 351F8 32CA8 33583 141DC 26533 06DA9 0BD59 000BA 77 22160 2FDEA 33446 17661 23FA3 0D7FE 16C48 052E6 78 36995 36A68 336BB 0CE56 3FE11 12FFA 0BB3F 1B8E3 79 318E2 3E532 2FDA4 09CAE 3C3EF 0B3A7 0E451 0CA29 80 207EB 36723 2F1F5 0CCC9 3984A 0C153 1D629 1745B 81 3FE13 2CF97 2CA31 1B457 2BD86 06B5D 04999 066EC 82 3F9A3 22F77 3AB11 057AD 3E5EF 13D13 1F378 03B3F 83 2510E 248A3 341C6 06A43 27BC8 0842E 0C4A2 1413C 84 33B40 3EE48 28FF9 11ADD 3D7BC 0DD6F 10961 15406 85 3459E 3FC42 38114 166CA 34C25 01779 107E5 008E9 86 36C4F 309D7 390A8 18A58 24FD3 047F0 00AAD 132EF 87 39717 25556 28121 1266C 3BCB4 0C94B 16BD4 17B46 88 39AE3 37836 3D134 0E4C2 2FF8F 15803 1B9B2 0E48E 89 20F58 30F56 37826 0DBE9 25172 01A01 09AF7 CCF5D 90 364B3 2B0CA 2BE32 1AAE4 29D7D 05D93 1B9D3 021FD 91 35084 3E213 32EDB 0F527 20813 09A6A 1878A 15683 92 379C8 288ED 36C85 18C8D 31498 1C7B3 1E2E4 06ADF 93 22008 2CA3B 2B613 1D1E8 23142 1D141 1F1E3 1C8D1 94 20DFD 36D64 337D3 15C09 29B5A 1C75C 1FB06 0E75B 95 31671 231B5 26127 0A0E4 35797 00D1A 12AB4 187B8 96 3EBB7 23D69 3D1F2 0EEFD 3AD47 1CC65 1C95B 03C78 97 25945 34B15 33E30 1127A 3B938 06A62 02D0D 1CB49 98 366BE 208F6 2DE7E 0713F 32D7A 1A0EC 06639 05F7F 99 31FF8 3A9D6 39DB2 1A1D9 3880C 011FE 1BE69 1F792 100 22535 3A2E2 298F0 0FE41 3E139 05858 101CA 1BC4D 101 3DDA5 23D87 32161 12156 2CA14 1F4E9 003D1 134CD 102 23F0D 231E8 316AD 147BF 21671 0AB19 141D3 130BA 103 3546F 251B4 33661 1B440 3827E 13FE7 0EAA5 1BCD6 104 39B3E 33A87 300B5 09DC0 2AC29 051E6 06706 179AA 105 372F2 3441D 34450 19F2C 22FF3 10C03 1A97E 16089 106 31287 394BD 329C7 0678B 2DE2E 0A8AF 1FD93 194E2 107 2AEC7 23388 293E7 0798F 27C06 0435B 1E169 11A0A 108 226E7 32E65 207B2 1DE2E 26B3D 178F7 15E56 16907 109 32A75 23B1C 35792 0FF8F 333D4 13399 0CD11 11C0D 110 21E53 3BF69 217F9 1E4CC 2FD44 0D3B4 08C04 17CFD 111 364A7 249A0 3273F 0B996 2FEBC 1ACEF 01EAB 0EDF3 112 34831 340E1 3C372 08432 253F5 1993C 0CA57 15BA3 113 3A7B8 2CFE0 31B37 0532D 2BD66 0B638 10C4F 02BA6 114 2CC36 33D15 354D3 0DCB9 34160 0E6A4 0A530 15AB7 115 36CD9 2B6B2 308A5 10C14 37DA2 14091 16635 09FC0 116 26390 3C089 20E90 198A0 3CF5A 0DA14 0B79E 00A81 117 35B16 2F4ED 329B7 0BABD 24957 071F8 1720B 00A51 118 21AEA 3CB09 3F850 1143F 26F6B 0B730 0A483 1C7B3 119 33300 2CDF0 23BE0 17190 33840 03912 1E470 07506 120 2CECA 2B8EE 227DA 1F9B9 3BE06 0F0C1 085D7 088DF 121 336A9 26C46 2A381 05AC3 3B3EF 1635F 02603 09A59 122 372BF 25ABE 3E1A1 02EBE 2797C 13647 14F10 056E9 123 2507B 269DD 393C9 14BC2 276FD 082A9 1E301 02204 124 2DAD4 233C2 24AE7 1A63E 3A4CD 19D27 00F38 1E632 125 3D94C 341EB 33B63 1E63F 20D60 0AA11 17730 040EC 126 314B1 21EEE 3A722 0D99D 2ADB6 1C749 0C11E 0300F 127 306CB 2D856 2B3E9 18998 3DCA7 00440 032D4 0AB14 128 2176F 2526A 2B8B8 03B7A 27F98 0C00A 15BC6 10BC4 129 3502C 3381D 30162 0A91C 3723C 0BA48 13991 10007 130 205A9 20E77 236F0 1208E 333DB 1FD1D 0F663 1A2CD 131 29EFE 3165B 391FC 18A82 24FA5 13B49 0EA6A 1E7C5 132 3BC8F 35058 2B040 03175 21D63 080FD 10564 1943B 133 33856 31A6D 37FA5 10D6A 2778B 13BA8 17FCD 07D78 134 2462C 3126A 3DE29 0EFCE 2CE17 1F670 00A16 09992 135 31358 3A006 3D6C9 09C3F 2E42D 0757F 07DE5 13F2A 136 26FDC 25BF0 22AC3 0D92D 2CB72 17AF7 1761B 13F44 137 39282 3E781 2807B 055FE 316E0 16070 125E6 1595E 138 237D2 2FB31 3DFD9 03B7C 28F55 09601 09A26 1210C 139 3A13B 330D3 2C606 033B0 293B9 1D684 173DD 18858 140 27825 3A0FF 288D0 16B7E 31A53 1358C 03259 07CA5 141 246FE 35C69 32A82 14D6A 3CAFC 03A11 19D90 037DC 142 37170 2C096 22EB9 088D9 3F0AC 116D0 0AA84 07AAC 143 31081 30C8F 38264 0AF24 24325 15FE1 026C7 04115 144 234A3 28DB6 3A4CD 0545C 35272 19CBD 07F1F 009B7 145 21F32 3677D 35CFB 1D63F 293B0 1244F 00CDF 0D3CB 146 30318 2EDED 2F09A 15C54 329CC 0B24E 0D93A 0BC81 147 201CB 2DBD1 3E4A5 0E7A3 2C50A 0A4BC 15412 182CC 148 26E83 3E68F 3D675 031A9 2EDD8 1AA4F 02443 16BD9 149 38C83 3892F 3E237 10FC3 26F2E 1FADD 19F56 191B2 150 2181D 26EFC 240B6 1224B 3BD01 0AB64 080DA 1BEAE 151 39273 26387 3BF09 1AF9D 37D3D 1A42A 09DE7 05D2C 152 3ECE9 380EB 2DD42 0F762 3D03E 1A53C 0687D 002A2 153 2ABB7 2FC33 234C2 1E30C 2DE4E 0DF46 1B022 0F06E 154 33D0E 2861C 2F481 0D8E2 3B345 18AFF 142B3 13ECD 155 2A691 39F50 3907C 18306 2999E 0826F 0F5C2 1C1E8 156 3F10D 2E86C 35EAF 0C23D 30BBF 1C939 142A2 1D1AE 157 30888 334D8 2F54E 095C0 22591 0A2A9 03575 07E27 158 2C05B 3A3A2 2B9E1 043FD 26767 0B509 152FC 05B3A 159 3F536 363C2 39C31 0A348 3EC9C 074E0 1E6C9 0A359 160 34212 2B602 25538 1D949 3110B 09D01 17649 030E5 161 27DA4 25283 33CB0 00F26 2F77A 0428B 19C1F 03A2B 162 29516 294A8 34D82 03B87 27025 03C98 13676 043DD 163 212A3 2BEB5 3A929 0EEB0 3C43E 18D49 013EE 07B2A 164 327A2 265B8 3E069 0615E 23B65 085AA 077FC 18161 165 26BC6 2D590 3213C 16691 20E7E 13460 1E439 079FB 166 353C0 26830 305A3 057BC 394DA 192E4 0F382 0867E 167 293AB 20EF0 22707 0816D 216A4 07B67 09B67 01B88 168 29915 2DEB9 3CE98 14D96 26F9B 15D4A 00853 1DE0C 169 36E40 3C7E1 3DE6B 0D335 39671 D6EBA 18B85 07A81 170 36DBA 218AC 26D28 1BC51 37AF3 1635F 1B82C 0061A 171 33C22 3F96A 33645 05F3B 2AF82 16800 1630A 10F03 172 3EEEF 318D9 276E1 03FCD 34D35 05272 1B329 1D755 173 3D442 37142 3B3DC 1C93E 32C36 0DA72 05EE5 1D8BB 174 34B1B 2A7A5 2AA15 0CB44 3D239 08C8D 130BA 0BF9A 175 3E04B 3FF31 2B8B6 14832 2D5BA 01588 1F533 1FCF6 176 35613 2E44A 36AE7 186C8 2450D 00BAA 05F60 03973 177 2D44C 3C74B 21D8B 08900 21DB9 129AB 1C563 100D6 178 31176 2D23F 27D5C 11F23 23B1C 0803B 18D88 0EB94 179 3A4F7 3DC0C 3D797 0E67A 3281F 09BC7 03BF5 0F8B6 180 21F13 2DB72 2B9AD 10C4E 39523 1F841 07D9A 04F1B 181 26639 3613F 296F1 0B3F3 344F5 18059 175ED 0E5DE 182 3E770 2B61B 211C1 1AB8C 2BC76 1449F 09942 0F505 183 3548A 39519 3BC29 059E9 2AEDE 12581 0B2D0 0DC32 184 3177E 23D07 2440D 17B42 200DA 0C89E 16386 0B4D2 185 201A7 2797D 2A402 18C40 39516 042F6 1C339 0287C 186 37ED0 20BC2 20E2B 137F4 21262 19E9F 0A112 0C910 187 24EBC 2B01A 39C23 0A029 26819 02519 1694F 088A8 188 2EAED 3AFD0 364CB 1518B 2B3D2 1CA75 14337 1B365 189 2808C 3BAFC 2CDC2 0BFE2 20C06 193A3 1233B 14A7A 190 36EF7 37D4A 28F07 18BB0 2862F 09A95 0D154 1E3E6 191 33D1A 2C6B7 341BB 0CF28 2F438 154C3 0A2C7 15A5B 192 3F426 30FD5 2C7CE 07C50 2D1A0 06569 04B31 05FD0 193 303D5 27A8A 356D3 0FEF6 363EA 08562 0ED7A 175B4 194 3EC32 398EC 2CC89 0C404 3907C 1B759 1A587 03175 195 39F93 30E4C 35A26 07AF9 3797B 0EB5E 1AFF5 1A672 196 2BAD0 2EEA0 21BBA 1B7CA 32264 0F0B9 131FA 0E97E 197 38127 31582 36BBE 1FE4F 25DF2 07EA9 0565A 1698D 198 3DC73 25F38 33B0F 04B20 3B4BE 0F73D 1D9DB 1029C 199 33FB6 2F281 3EB2E 0D90A 37AB9 1579A 1994A 1EFC4 200 3C0F6 3566A 3DFD7 14834 22577 04383 034D3 1D63E 201 32C8E 39FE9 25309 0E783 22ED6 14413 182D0 1D94D 202 36BA4 278F4 3E3FB 049F4 34B51 10EB3 0AF98 1A3BE 203 23E59 3AC99 221F4 0BC4F 31DD7 07190 01735 0CF52 204 227C2 2BED6 30C21 1CC8D 317EF 16B4C 1629F 16DC8 205 300C3 28EAF 2A68F 0E941 2C3DD 163A5 09BD6 05CCA 206 21159 3D839 2365D 0856C 20C00 1AFEC 0674B 0AF29 207 2DF8E 36078 3C37B 1F5B8 32D1A 1D705 02B88 13BF3 208 3A2EB 3CA5E 277CB 19169 37018 1221E 17283 06BFE 209 3663E 38132 3DDC6 0620F 331D3 1AD84 0B417 0A02A 210 3883A 3448E 221A9 0FB88 3D9BD 0B119 1F0DD 18264 211 296BE 28C22 309D2 0E577 384E5 0F074 04077 06E5D 212 39B37 36C83 3E5D5 10C02 3E880 18FE2 03D7A 1E433 213 392BC 282EA 237CF 08F89 35EBE 04733 0F765 0A2F5 214 2D434 3254C 2E816 1F529 20AD8 111DD 0B23C 0CEF0 215 27A5B 3630B 2FAD9 1DB40 2B485 1D5F4 0D95E 0CFEC 216 30B51 39851 2A1E3 0A6DB 28299 18837 06E57 10018 217 31FBC 2E171 3DD23 18189 29A2A 1F5BE 1027B 05C6B 218 3B7EE 3B4AA 3A6D1 1063A 25E5F 17B00 01626 0FA77 219 2EB6B 27CA2 2A739 108DF 2BC9F 0DC9D 18257 0E2C3 220 305AC 221B1 37F7F 0777C 20BE4 12BB5 12E57 0794D 221 32ED1 2E012 3C456 08DCC 28693 17865 11892 1F6D4 222 33A3E 3EF38 29619 12828 2F785 0D1D9 02A7C 19C4B 223 277CA 2BAC3 20F0B 0E3CF 3E30B 17CF2 0C66F 0670D 224 38EB9 2027C 3D0AF 19FAD 2D3DE 0FEE5 1C843 08902 225 21C7F 2029B 3BED4 1E1DE 36F6C 0DD85 165A7 13637 226 2A986 3EEAF 2E182 164AE 26B0E 0FE0F 1A485 0EB33 227 38177 2A44F 2B222 0CD6D 32C15 06B95 14D30 00E7A 228 263A7 2F3E6 25C44 0D315 2C3AD 02353 13F61 16CB3 229 2A956 36F67 21791 14004 222FC 1C91B 02ACD 1DB09 230 2683E 3C516 290C7 18FFB 3AFE5 0C2F0 1CE5E 19B14 231 3FC36 39DA0 3AA4B 1243F 34FBB 09428 1BD4A 01927 232 23B36 3BA46 3D433 126CA 2F152 116C0 1E5B8 0424D 233 36725 3CD2B 24DD6 1AE63 321E3 1B63C 11D51 1F7D6 234 2D676 2F5D9 20324 11DD6 385F5 102D3 1D57A 0B0FE 235 3BAE9 36BC6 3E739 1BC41 31F1C 1FA27 12283 15721 236 25694 38D83 32268 14404 22C82 02B1F 14CB4 083D2 237 3E56B 23886 3EA38 0E52B 222A9 1B3E9 0F81E 1D9FD 238 30C8D 363DC 2AC53 12A7A 3AE50 11773 10491 05FE3 239 256BC 2DE49 20E69 10B0F 34A04 00655 12081 02A03 240 32289 33BC0 2553F 1DB8B 2C5C6 006BA 13963 0A787 241 2802D 336F6 2071B 1721B 23280 06D85 1C75C 18167 242 3AE04 212E6 29BF9 09B13 307AF 187AE 04EAF 00B52 243 22A6D 2BBB4 36270 12ACD 32C83 1CA49 0E821 0961A 244 228D5 2CF29 27DDF 12B25 3E57F 1172C 033D8 04713 245 23A41 354F3 30484 18145 3B17E 1EB32 0DBD5 0BF01 246 294CB 26FD8 3B034 1463D 3073F 01A3D 0AFCE 17661 247 319D3 2352A 2430D 099C7 3F840 07E20 138EC 0AA70 248 3DBE9 39A18 358A1 16567 3E3F4 0580C 051CD 0C072 249 2A925 314AF 205D4 02BE1 23C2D 0D41C 11E20 116C2 250 247D0 25515 2C6C9 14805 2BF9E 10CDB 1E2EB 130FE 251 390A5 2C3BC 3CE8E 04720 28D78 04B30 08FF7 01079 252 29329 3F13E 30A30 010EB 263A8 1A23A 0178B 1D231 253 3B888 37156 2C7D2 10C79 3FF07 0E112 06A42 08313 254 3D8F4 3F7F2 24F25 1651C 24A73 09BBA 064D3 0EAE1 255 2A685 3DFFB 22546 194CC 3DEE3 05C53 115B6 1A57E

QPSK-Type SA-Preambles According to Embodiment of the Present Invention

Table 11, Table 12 and Table 13 each illustrate 128 base sequences generated according to an embodiment of the present invention. Each base sequence is identified by index q and expressed in a hexadecimal format. The sequences listed in Table 11, Table 12 and Table 13 are for segment 0, segment 1 and segment 2, respectively. In Table 11, Table 12 and Table 13, blk denotes the subblocks of each sequence, (A, B, C, D, E, F, G, H).

A modulated sequence is obtained by converting a hexadecimal sequence X_(i) ^((q)) (X=A, B, C, D, E, F, G, H) to two QPSK symbols, v_(2i) ^((q)) and v_(2i) ^((q)). Here, i is an integer from 0 to 8 and q is an integer from 0 to 127. [Equation 24] describes an example of converting the hexadecimal sequence X_(i) ^((q)) to two QPSK symbols.

$\begin{matrix} {{v_{2i}^{(q)} = {\exp\left( {j\frac{\pi}{2}\left( {{2 \cdot b_{i,0}^{(q)}} + b_{i,1}^{(q)}} \right)} \right)}}{v_{{2i} + 1}^{(q)} = {\exp\left( {j\frac{\pi}{2}\left( {{2 \cdot b_{i,2}^{(q)}} + b_{i,3}^{(q)}} \right)} \right)}}} & \left\lbrack {{Equation}\mspace{14mu} 24} \right\rbrack \end{matrix}$ where X_(i) ^((q))=2³·b_(i,0) ^((q))+2²·b_(i,1) ^((q))+2¹·b_(i,2) ^((q))+2⁰·b_(i,3) ^((q)). According to the above equation, binary values 00, 01, 10 and 11 are converted respectively to 1, j, −1 and −j. However, this is a mere exemplary application and thus the hexadecimal sequence X_(i) ^((q)) may be converted to QPSK symbols by any other similar equation.

For example, when q=0, the sequence of subblock A is given as 314C8648F and its modulated QPSK signal is [+1−j+1+j+j+1−j+1−1+1+j−1+j+1−1+1−j−j].

The 128 sequences illustrated in each of Table 12, Table 13 and Table 14 may be doubled in number by complex conjugation. That is, additional 128 sequences may be generated by complex conjugation of the 128 sequences. The additional sequences may be indexed with 128 to 255. [Equation 25] describes an extended sequence generated from a base sequence by complex conjugation. v _(k) ^((q))=(v _(k) ^((q−128)))* for 128≦q<255  [Equation 25] where k is an integer from 0 to N_(SAP)−1, N_(SAP) denotes the length of an SA-Preamble, and the complex conjugation (.)* may be defined as conversion between complex signals (a−jb) and (a+jb).

In addition, the 128 sequences illustrated in each of Table 12, Table 13 and Table 14 may be doubled in number by a reverse operation. That is, additional 128 sequences may be generated by performing the reverse operation on the 128 sequences. The additional sequences may be indexed with 128 to 255. The use of both complex conjugation and the reverse operation may lead to production of 384 additional sequences which may be indexed with 128 to 511.

TABLE 11 n = 0: (Segment 0) blk q A B C D E F G H 0 314C8648F 18BC23543 06361E654 27C552A2D 3A7C69A77 011B29374 277D31A46 14B032757 1 281E84559 1A0CDDF7E 2473A5D5B 2C6439AB8 1CA9304C1 0AC3BECD0 34122C7F5 25362F596 2 00538AC77 38F9CBBC6 04DBCCB40 33CDC6E42 181114BE4 0766079FA 2DD2F5450 13E0508B2 3 3BE4056D1 2C7953467 0E5F0DE66 03C9B2E7D 1857FD2E3 15A276D4F 210F282AF 27CE61310 4 3DBAAE31E 254AE8A85 168B63A64 05FDF74FB 3948B6856 33656C528 1799C9BA1 004E0B673 5 177CE8FBC 21CEE7F09 397CD6551 01D4A1A10 1730F9049 067D89EA9 3AC141077 3D7AD6888 6 3B78215A1 17F921D66 385006FDC 011432C9D 24ED16EA6 0A54922F1 02067E65D 0FEC2128D 7 01FF4E172 2A704C742 3A58705E1 3F3F66CD2 07CA4C462 1854C8AA3 03F576092 06A989824 8 1A5B7278E 1630D0D82 3001EF613 34CCF51A1 2120C250A 06893FA2D 156073692 07178CFA7 9 032E31906 2DD318EAA 1DE55B14D 0EF4B6FB3 27DED0610 1BC8440D3 0ED86BF8D 14FAFDE2C 10 174725FFD 0D2FB1732 124470F56 292D9912B 1571408A7 227197AE9 2430BC576 0B67304E0 11 1F1DCD669 293DD1701 0C34F1B84 28496EE51 3DC41327F 071C06523 28E1657B6 02588EFDA 12 22E4AA041 3810362F1 1955F1DE7 0D6D2F8BE 11F31358E 3EB27BB12 1F4E60111 119BDA927 13 14300B522 152E6D482 168DF6E43 0740B7AE0 14FE7DCDD 0FA092626 23697615A 1F1331EB8 14 12C65ED00 317643CD7 2C637A415 15E3E5185 0F5CBB9E0 23290B156 26F37EFE8 1AA174793 15 1DD6453F0 032C4BD39 082659BD5 320C5E691 224E555B2 3A9615A8D 1BED03424 28E6A9CED 16 068AE7EE9 16F724910 3803DD9BD 2A31A2FFB 010BF5237 33CB067E6 0280C28B7 184417B94 17 1D651280A 2C7BCF443 17324EFB0 236E5C411 381215183 2F076E64E 0A6F2EE74 3DA4196B7 18 27341650F 1B520099C 09AC91114 000A5F48B 30AB4B9B6 2D0DB0DE6 1CF57978A 2D424406B 19 3A01E2FB2 0DF5B257B 019D1C63A 0EA7DCDDB 242D96605 2DA675F15 1DEC54193 3B6341C16 20 2DDFAEB05 21D0A1700 0FA09BB78 17DA7F8BB 06E883B3F 02E6B929B 2C1C413B4 030E46DD1 21 1B625E3F9 0F708F756 00CD97B18 3F036B4DF 2CF08C3E5 213A5A681 14A298D91 3D2ED63BC 22 2DA48D5A9 0C085BD17 01903428A 3DF2A30D9 29061309A 16F7DC40E 2AF88A583 27C1DA5E9 23 30DBAC784 20C3B4C56 0F1538CB7 0DDE7E1BE 2C312903B 0FF21E6C2 032C15DE3 26C9A6BA4 24 3188E8100 385FEFE2D 3967B56C7 3F62D246B 1826A755E 2CDA895EA 2FAB77825 1B525FF88 25 339467175 2DE49506B 27B7282A9 0254470A3 3374310AF 2DF20FD64 3848A6806 11C183E49 26 02AFA38DC 0F2AFDDF4 1A05650E2 061439F88 11C275BE0 30C41DEC9 119E070E9 1E76542C1 27 1B364E155 086FF808C 29F1BA9DC 0A830C788 2E70D0B3A 34EA776B1 3D13615C0 15FC708D4 28 38ECFC198 07034E9B3 2340F86B3 07562464C 22823E455 1F68D29E9 257BB66C6 1083992F1 29 375C4F5AB 3C0F5A212 0EA21BC30 13E8A26F2 17C039773 283AD6662 1F63AB833 2DE933CAF 30 2B773E3C5 3849BBE6C 1CAD2E5AB 0405FA1DE 1B27B4269 3B3BF258F 300E77286 39599C4B1 31 1E878F0BE 0AE5267EC 376F42154 1CD517CC2 302781C47 123FEC7E0 16664D3D8 24B871A55 32 20E200C0A 1C94D2FF1 213F8F01B 369A536E0 161588399 29389C7FC 259855CAC 06025DCE2 33 28D2E001C 3C51C3727 106F37D0E 1FB0EFDD1 2CD9D33C3 1EA190527 0BB5A6F9E 074867D50 34 08EFC44B5 1B484EABE 05FEB2DE2 211AF91B5 0CF52B1E1 002B5C978 11D6E5138 0D402BDD2 35 337C618F4 0A4C31DDA 1D93003D6 006D7D088 348043A6D 325E05758 2C53EEEB8 15ED8E614 36 38375C2FF 18C78FD02 30C11EF53 3916581DD 1B75263FF 2D8DFD6A9 00C4E8482 1D201F96A 37 2E10B0D05 2EF203893 2491D95F1 34D995B51 32214BDF5 3E45674B1 3E74AC66E 1B813A999 38 153E7269D 2391C7BFC 1ADD3A595 0EFD3086E 00AD88A8E 0D8B007CA 0F22C5F9D 010E86385 39 3B58C7BFF 0BA76496E 3AD0B7BBF 1D6D10FB3 3A607BEFC 28F122A95 057950727 179449CB7 40 37AC5194A 390BD9C00 3A48C0461 12FBCE4C6 2A8DD4171 10E9F1E34 251F5D167 1124E96B1 41 0FEF20C67 31EC9EA3F 275B31143 22DA4F02B 352C0F648 21FF5B9F3 3E5BC2372 0A1AE08FE 42 080EDC49B 17AD7F7BA 390775B3C 1380B00DA 2477FF17C 2E6D9E5AF 05381F2DD 26143CC17 43 2DB485795 1B3252799 39AD0211C 3AAE31B76 30532A187 1C8EA5F5A 2EA6E4D6B 30570A2E4 44 11BB4F78A 12CCE1428 2C67EEF99 20E3F841A 20CFCD5F2 1618A7B94 111FF6092 2ED034E06 45 1C66335E5 0CA9B9BD2 3213028AE 15542DD28 290F7DAE2 2137F02D5 17DF9445D 24F162FFB 46 360FB966B 17D878955 1C1D67093 065B84F3A 1A1D955E3 24C73C11E 270EA9EB2 114DCA02C 47 002CE84DD 0616DD253 3EB188345 1FF852926 37E160F00 040DF51EC 1857A33BA 230FD8A0D 48 233C0A71F 22E428104 0325F8170 39566B188 32DA16A4A 039FDF1DC 27A3E946C 0D69F26D9 49 0583F9F73 378380CB6 059D8A960 3E3442C7F 026138ADB 25F370F1E 09D3EB2CC 2D37D50C0 50 08DF9CC66 2C2E7AA8F 3CB241ED2 03216B4D2 39736B451 25F6F113F 08FD2AC3C 1974574FD 51 3D1FF6041 2CE2AB97F 01A734F3B 1DCF9F3C5 268D595CA 1FBD2A8B8 0F1449F86 370C352FD 52 123218E40 3AA057589 20F73A16F 26E3BCA5F 3A7330DC6 12C659384 39D99FF1B 276DFC540 53 185AEDEA4 0418B3643 382F7700A 3FC35ED60 07BA2F838 1BC840C93 2469A41EC 0CE7B4CB0 54 2E194E2BF 3302A0B28 1836001EE 154A4738A 36A3BBD72 23CCD0EB1 044B3A13B 2B50C8057 55 0B76405D3 231AAA728 0EE05E9B6 0093A21F2 2065A01D0 1F2B810D4 1082F3A73 1DAFEA492 56 07AD23A3A 2091957F1 3B9D8CBF0 21E4160BE 1BFB25224 3D9085D16 03076DD39 1DBCF8D03 57 226D70EBF 3ED15246C 364130C46 22F6D4AA3 3FCC9A71B 3B9283111 0484F0E58 14574BD47 58 3F49B0987 305231FA6 0CF4F6788 3B9296AED 2346190C5 3365711F4 078900D4A 352686E95 59 1D62AC9A4 104EDD1F5 1B0E77300 1CED8E7F0 388E8002C 1FE6199F4 02239CB15 1FE5D49A2 60 21314C269 28600D12A 22E4F1BAA 044E211B1 0DECFE1B4 3E5B208CC 1CFC91293 21E7A906B 61 02C029E33 1BA88BE4D 3742AE82F 21EF0810F 17D23F465 240446FB5 17CCE51D9 2C0B0E252 62 16F9D2976 10185ECE6 2821673FD 02674271C 3A8A75B7C 226D4BF0F 2216004E5 0E8605674 63 06E4CB337 32A31755D 062BE7F99 1417A922D 2271C07E5 24D6111FA 3F2639C75 0CE2BB3A0 64 18D139446 2426B2EA8 352F18410 1133C535E 10CC1A28F 1A8B54749 22A54A6F4 2F1920F40 65 22443017D 2265A18F5 14E1DAE70 11AC6EA79 31A740502 3B14311E7 3AA31686D 26A3A961C 66 2018F4CA9 3A0129A26 39BDA332E 1941B7B49 03BBCE0D8 20E65BD62 2E4A6EE6C 3B095CCB3 67 0CC97E07D 11371E5FF 31DFF2F50 17D46E889 352B75BEA 1F1529893 21E6F4950 1BD034D98 68 275B00B72 125F0FE20 0FB6DE016 0C2E8C780 3026E5719 119910F5F 3B647515B 1D49FED6F 69 250616E04 0882F53BF 11518A028 3E9C4149D 09F72A7FB 0CC6F4F74 2838C3FD1 08E87689B 70 212957CC2 03DD3475B 044836A0B 2463B52C0 0342FB4B0 34AD95E9B 2936E2045 3B0592D99 71 2922BD856 22E06C30C 390070AED 09D6DC54F 3485FA515 064D60376 07E8288B3 3DD3141BF 72 29CB07995 007EE4B8B 16E787603 07C219E93 1031B93DD 23DEFF60B 30F1D7F67 0EFE02882 73 11F3A0A2F 38C598A57 3FE72D35B 1F655E0D1 0B3AC0D92 3430DDB1A 3BAADBF42 02D6124C0 74 05FC8085D 345A5C470 07DAAE1E9 0D7150B88 25D2A5B10 16F8E5021 3240EFC71 0F0F5922D 75 399F32F6E 2EEB17A8E 0D61665D0 2138EE96F 3F8119063 01B5048F7 27075153D 265DF8280 76 3962CC581 2337D2983 286FD7BBA 185126E0E 1F95AD927 0F7EBC374 1E3A4B6FF 20CA9B9BD 77 1C85C13AF 290C37167 1FDD26E8F 0C38736B8 0174DB972 0A921E3CC 097557C9D 09452C1E6 78 2D48D6C00 2D9BC8DFE 10FF1E128 25C96BA85 0FB071B8E 0F09B3C9C 1A3E11441 38EDDA03D 79 396B88B2F 0029F4BDB 30D098CAD 0D54D12CB 1D0823F55 2DC53B9AA 11BCF7438 33F6EC091 80 21E03CD65 1A2FE5B92 2851F8445 0251E386C 1468950D8 1A8B39748 001B42236 26CD82DA5 81 2CEA1E6BB 006C97E74 00C2B887D 23461AF95 0E9CB2BD2 0B0EA3022 1FB56A7A3 25A7FA625 82 208FC2A1F 381C5733A 03F11D7E3 07ED6A7B7 1FEC85E09 3D61E0440 356F4B1C3 3756E5042 83 2061E47F0 22EAA0AD3 24796BB65 03C59B4D8 32A75E105 22155381B 23E5F041C 155D2D7F9 84 381AFFB73 212B5E400 1F1FE108E 04BF2C90D 3C1A949D9 2854A9B45 001B09322 3A9372CC1 85 058B23433 0904C6684 158CADB9E 11BA4B978 1854368F4 1919ECEA7 147F1FD34 2E228AA3C 86 34857F3DB 2CB44F7BF 111A065D3 1BEAB392E 27F081ED8 3E67D1186 0F6265AC5 27716FAF9 87 38EBB8BF1 32ED6E78F 2B0BA4966 2188282AA 00D49B758 1765BA752 2B50AFDCC 068C82450 88 234F0B406 02FB239CD 15AD61139 2250A5A05 1CD8117E0 0D849163F 268C7A5A6 22A802020 89 2D0FE8D16 0C14E3771 07DE5320C 0640C2762 1CBD9FF4E 37A91986D 2024DA401 164D4A84C 90 3225B4D60 3013B75F2 2A77AE5C5 2C25377EE 03C8DF835 346E80FCB 116B79FA5 356D2B604 91 0D55231FD 247907F31 0CFA0B049 36D069A95 10D4CDE71 1A32544D7 38336885F 173ECC08D 92 207420EAC 26FCFE182 3FE7B31C6 15B320E13 187AA34A8 1B52253BF 1FA16669D 3725A81A5 93 3C9C7404A 092B77FEB 3B9865B46 349456F61 39B7C6A66 3075EC990 01BE637DF 330897B17 94 1CA4C048D 2B4D50621 2BF917627 3EA2CC5E1 33EC0A1E3 05FE0F747 349553D72 396077301 95 04CEC1C82 1F828DD00 30122C790 1AD8A7895 1CE0912C0 298382F37 2D4D33F06 001364B36 96 37F8BB035 2F0897994 333F5F096 0F28AB363 20036829F 338017E2D 3A5A05D76 0CC02E5E0 97 02FD351E6 03E316288 2FCAEB4F8 1C5A80CE3 3D3AC3FDD 3E456746D 119A5381F 1581C894E 98 1623B3D0F 103224DB0 0FB936BC8 2EED7F082 26C91513A 2F12E4C31 290F3AEF2 392CBFF67 99 02F75DE8F 2E61A834D 02A692866 1F21044A3 2D7881A95 18651EE05 11FE3D308 39EED56DA 100 3A858659E 2F7A87BE0 135FD561D 27B3B651A 05E131CB9 0D5865123 2CD6991E5 3EE6DF705 101 3F3B247E1 32D02B245 16B98A593 1E4CCFF18 0C4A9D285 06D519FE2 023A336CD 1B20E999E 102 3A9E8B49B 239656AD1 3396D1C51 06F4DCF40 15D819D3F 2A3061144 20BD2A33E 2FFB139CD 103 38622F3AF 24BF9BB7F 1D2729010 15877B93A 00376B0E7 0FF064887 3505CFD9B 354C366B6 104 2A0AB7033 1AFA65DE1 1198D0AD6 38E80C86A 27693D541 3BB26F3D4 39154881C 0E7DD6B6B 105 1B0DE4333 27FE0F6D1 0F00B2888 0BDA322FF 2759B5A4F 0543A2D27 0C36DD1E5 04E9A262D 106 1C7E636BF 000E9C271 2B44F4F30 28255BF77 1CC4D69CE 03F4C57B2 3E926D59B 00AA39BDB 107 1FDE98AE0 0CD076B07 171124FB5 33F098288 1E0B3043E 39731D117 3E7ABC2C8 19CC50279 108 28EE855ED 2A704C371 03288F4B0 3C83E26C2 0A905148B 18C66BB94 1BCC32537 10D71AB44 109 26238A065 0FBD7BCDD 02507CF76 059F69484 3FE0D6F77 2466A50DB 3C07A75B2 2DC0F099E 110 3CDCD6CBE 1446783DA 1626C83F9 2FD4C4DF3 13A59A2D1 2C903D2A3 0FD37F076 0B1039EDD 111 043B07DD7 28D9C2155 2CCEF57A8 34254C1B7 09B933B2F 1FA410127 10BD5E9E6 010EC6389 112 345E8FCAC 226BD7EFA 27341A51C 23854F031 04C297212 044DED8E8 319B3BFB8 37DBBBF57 113 16FBEFA72 1B5EF9484 2DEE7A5BF 097695C12 08AEAD5E8 3DA7C1327 2B81F3E2D 31AFBED32 114 3484086B1 2DFA56B9E 226E8AFE5 285F45484 3E69AC8E1 1CB33645F 2DE53BC30 2F6ED567E 115 1117B5E7D 122A4D471 1AC936544 267010D71 10428CA47 24B72A000 2E27FE185 1E62C1403 116 0B3161E37 038C3DC98 100793647 1A95D8D36 399668787 06C0D4922 25F48AA58 2DFFF1789 117 04FEF7231 381910B63 298783078 30CE5EC1C 29F6F299D 3C34CA770 37BAAB139 3D2069B65 118 18F644052 2051880EC 23ADBF949 04237280A 18304E663 287364EFF 314698D78 149A21E51 119 39E14BBCB 1DBDA9EF4 3ECCAD8D3 1BA3EF99D 26D85CEBF 270547292 0FB3C7826 0131E73D6 120 2DD6F3F93 0FC282088 14A143DDD 0AB840813 0B973037C 29535C9AB 0DF8DA2AC 271CBC095 121 1C1D063F9 3F4EF6DCC 00128D932 145E31F97 0B21590D1 38F1602D8 3AC2EBB74 2320957C5 122 3383C846F 12128F29B 19985CE7D 2834CBBF2 1E1513B3D 364DB5800 33EE3F46C 01A865277 123 0129D260B 238A85BA0 2D81AA924 391704866 36F857692 1D2F813C3 0505FB48B 3DC438BC5 124 05E0F8BDC 3D978C1F1 266F83FCA 0E89D715A 01821DEA4 12D9AE517 22F8EAC2C 3C098DA58 125 1575D1CE9 26F291851 3A7BB6D2C 12CC21A3A 2975589B0 39CF607FF 388ABF183 3D3BAAB0B 126 101E5EC7A 0B75BCF3B 13ED25A86 35FC032B6 2F6209FF0 13C7B2041 1F2791466 3A759A6C2 127 1EF89091A 11A653D2C 223FC1F42 2F7B97B31 2CA4EE011 00F68767D 10FE34682 018339212

TABLE 12 n = 1 (Segment 1): blk q A B C D E F G H 0 20A601017 10D0A84DE 0A8C74995 07B9C4C42 23DB99BF9 12114A3F5 25341EDB0 362D37C00 1 1364F32EC 0C4648173 08C12DA0C 19BD8D33A 3F5F0DDA6 24F99C596 026976120 3B40418C7 2 1C6548078 0A0D98F3C 0AC496588 38CBF2572 22D7DA300 1CCEAF135 356CA0CCF 093983370 3 03A8E3621 2D2042AF5 2AB5CC93B 05A0B2E2E 0B603C09E 117AC5C94 2D9DEA5A0 0BDFF0D89 4 07C4F8A63 3E6F78118 32CCD25F2 1792A7B61 0A8659788 1F9708C04 086AF6E64 040B9CD78 5 2D7EE485A 2C3347A25 3B98E86AF 242706DC3 1CEF639AF 2E1B0D6A9 3E9F78BC1 0FB31275F 6 0307936D0 21CE15F03 392655B2D 17BE2DE53 3718F9AB8 01A986D24 077BDA4EB 1D670A3A6 7 05A10F7B7 31900ACE0 28DCA8010 2D927ABE5 370B33E05 31E57BCBE 030DC5FE1 093FDB77B 8 092C4FED1 268BF6E42 24576811F 09F2DAA7F 24EFFC8B1 21C205A90 1E7A58A84 048C453EB 9 29F162A99 1F739A8BF 09F684599 1BEC37264 38ED51986 286325300 344FC460A 3907B1161 10 0E4616304 0FABDCD08 0F6D6BE23 1B0E7FEDD 0047DE6C2 36742C0C6 2D7ABB967 10D5481DF 11 32DD51790 237D6ACFA 2F691197A 16724EA58 149143636 3810C6EE1 3A78B3FC6 1B1259333 12 1BB0FD4D3 235F10A55 1C7302A27 1148B18E5 04F25FBC8 2A0A8830C 3646DBE59 2F25F8C30 13 0FB38C45B 069DF29E9 00F93771B 3AA35746D 2CAF48FD0 0A42CDD55 19A23CE8F 26318A30F 14 365FBEDAC 27710945F 2AA367D61 05A484318 2563F27D9 2D37D5C00 287D18FBB 3ADB44805 15 3038BC77D 2A45D29EC 156173792 03EC7679E 07577E1A4 1B6A94A74 1D26E5A94 0FD878D5A 16 1F22158E4 3F02A1D37 2767EC03F 1C8CD535A 23DA2E5AB 2D5F25A59 0971AA889 3E78C1846 17 16521E709 12C2DB8FE 3A596C221 1562D5C27 1D9E1F39A 345B96872 301C7894E 2797F032D 18 2EC951A24 1ED768F3F 11217930A 39DB44855 36E41B3FC 0F6E48C44 36254C517 14493C673 19 3EA159E72 24ADE96FE 3458C73A6 30674E1FB 242109AF2 24DAF32B6 24B1EDFFE 291CB9D15 20 2AD0E6696 04F4077D9 1BB279A53 38957605B 379B7A6A0 0BAD35616 1285EAE51 37425C7FF 21 083637980 34F2ED66F 282846A88 19D5E40A6 21205942C 27AC551E9 0F3F4C262 0505FB522 22 3E7D64856 1DB0E599E 159120A4B 1FC788139 235C454FB 3CE5B67C8 339EADB32 0F9F7DDC1 23 3956371B8 1D67BE6E5 1EFCF7D53 041A5C363 2E281EB3F 00AF8A1ED 2DE24A56F 1332C0793 24 0818C47A9 1F945634B 1C5ED3403 1043B5BF4 149702D22 024CBB687 34B01FA8B 1E9F5992F 25 3A6618167 3A0007886 3EDB5756B 2F2FA6FCD 21A5252B8 396FFAD9D 05347B60C 2E0ECA200 26 0D45F89A1 3F9C2C26E 1CBCF809E 3CBE5FCD0 3D2DCF245 14F351A1E 224F5B3FF 2AA6ED34B 27 3BA85ADF8 282005732 3AD7C0223 2E73D1800 23DEA3F46 2275280F6 1586270F9 0CEF4287B 28 07DFE662E 314B74F2F 397BDDf4C 223A8071F 1F5BE3BB4 093BB1F33 0FCA2D129 21B3526A9 29 39FEADC12 0ECE1CD67 206228FAA 38FCCA606 0C5EEE08F 1C1BBDD4E 1459E42ED 11FD64ADF 30 2735FFB20 2AE9B244A 1A5AED974 38FCFD5CB 20310DB81 1C5FC3E24 19FB3BA17 3785BE865 31 24FF6B7EC 01C682673 19CB14113 2C8CD3C2A 066725853 02CD0A23B 279B54315 0CD571063 32 015E28584 30B497250 127E9B2E1 2C675E959 05F442DEE 394AEF6E2 079E5C840 12703D619 33 3CE4B1266 35270B10F 03549C4B3 3B3E6C375 1DBEF270E 0042C9737 049522EC6 24961653E 34 34176CD90 2B5E9EAE1 1C95E3C2B 1EF541D4D 26D1450E6 3B9D895AB 1B0C84349 104B6B428 35 07A813421 2B39EAADC 33553571C 0F8046CDF 2CF6A7F23 0AE3BE8C8 308BFF531 2DBC0F9E3 36 168276972 2CF41744F 3CF2512E0 0F8B68ABC 2E609F6AF 04E03AC8C 0F9B66F49 3AFE28736 37 03456021F 1982574F3 0BB2B3F49 15A4A1CDE 15487D58E 2907C9ABB 15C0D2D73 28D8CFEC3 38 3D3FD677C 33AF2628F 3D217FDCF 30027E85F 0A463F23B 2F2AE8324 1D1E945E0 2EB355D28 39 3BCAF9076 3A7D2FF70 3C541F38B 249BD8A94 287BC4833 141391EB7 05B6443D0 2FEACC5E7 40 275F118FA 3A96B346D 0C713CDE5 02F394A28 3EBB1D18D 1BE7A9FDD 223C53CA1 2BF040F77 41 1161DE4F5 0544F9DB7 230847E45 322AF4E17 26944A0B4 3299F1420 1C9405B8E 2DBABD4CE 42 33165C531 268FE9B9B 081A914B4 39100772B 27DBF03E9 3E3A18AB0 13F2D2B83 2CEEE5FF4 43 275F97006 0A578F2EF 16CEE7EC8 38A5B0084 00DC9A1F5 1B88CFA3D 0D8B0B8EF 29FC4CCF2 44 04BBE4F2C 1546C3988 237105A43 339042B36 3A5DEBE2B 1BD09449D 38EFF588B 1CDD3A6C0 45 002E32D38 1E85D3125 3F51120D7 00420ED63 3384713AF 1D941BD34 2B39EA9CF 05B6D9E94 46 2B3100F7B 335EDB2E6 1AC8C8EE4 337FF7139 0672D7995 38A54856E 0124753F2 3A3560851 47 046207CE9 0FE1BC312 09BA5B289 39376EF2B 33F826C2C 2F6531496 3933B8616 23125B50F 48 3E5849C45 01EEDB390 141D9A024 2DE07E565 1813D12BB 36DB8D404 0E8A272AB 3A66B71AD 49 1A2A88A4C 3F0C9B4DB 266CFBDF9 163420CA5 281ABBE99 34771C295 3AC051848 3C53CB875 50 16F795184 3466F1FFA 1F433B456 1DDF13810 25F58CF69 1DD6CFE4E 10A236FDF 12AE697ED 51 1C8D17F4F 07C43B7D1 1C8DAD395 28F6C112E 3A336ADB3 0EB6889AB 2783A6A1F 2CDA40458 52 16044624E 252AA04B2 11484E85C 07F5024B7 286E3A67F 2EE6BACE4 277F1F864 22F3CF57D 53 2D1A3F4CF 0EEB6DEC1 30CD76F42 20403D1AC 3A72EF9D6 1DAAF2A39 03AB76CE0 0A2856267 54 0FA2A786B 38273EDF2 228A45016 0309DF52D 093BDAEDC 1B11E9300 1DA9C5324 03365EB1E 55 24DCFDC06 11CF909D6 2FF693F4C 366338F1F 22E641569 0ACA60D55 32D1B009E 035472E09 56 17F5D6662 062FCF913 35B211035 21ACE73FB 3B4148706 2D0CD106F 2CAB457A4 103E1E49B 57 21859E8DA 2F1E3B3D9 1F1014BE2 062A3DEB5 354C0C786 05A8982D4 35A758943 346EBA72A 58 00CB49E5F 211B1034A 3A5D2DAF1 21D3F3EB0 24B2D1150 1097C3685 2AA3671CE 0E5DC1308 59 24C8401BE 217B1F994 1FB9664A8 3D5057708 05A506088 1314842B9 3C8657064 14B1FA77F 60 2AD698E2E 3C129D1F6 2C744FF4E 1C1C052F8 18C38A9FE 252168A10 2EB68D098 3A001CBD2 61 2AF71324C 2BF41D408 0FC498E18 149A1A407 0FDC2C4A3 19D00C4A1 0F6B0DD29 268CF8E86 62 19F4D82A5 342C73FD5 0F5AEEDE7 21A2A8953 15ADB7A94 11DBE038D 0A5B6634A 0FA382B77 63 0A5985778 35AC3032D 35691C85D 2829D55EE 04A3FBD8C 2C85BFA8E 0F459B864 3E878F0BC 64 10C785EB0 054D4CE18 1BF657A8E 101DC64EF 0B4E3032A 24ECFD9C2 00C98BE0A 2A1F82444 65 300E8B09C 31A079FB3 0C41DEC5F 216CCFE4D 226C5A693 3C31A41DD 3A019974C 23B64EAFC 66 249BDC80F 0316ED79E 1E42B5567 0CFF04A4B 310678543 34D986980 1E3195429 280966E65 67 359A72B64 186A3999D 065825DDF 2D28E6000 10964C1E1 1468C970E 34C8B606A 33CC94DB1 68 370B29C05 12841A9E8 2147E7160 1835345EE 06DB43F37 33854A725 065E6614C 151E2D7B1 69 0EAADDB27 004EC6DDD 30AA39B8B 2AEB34AD4 2A13D6649 00EC67B83 1176417CE 0E3683151 70 0832BA87B 3B67515B9 0FD34BC87 1688F83CB 370B52AD5 3A2CD6F3F 3343BF461 37BD48546 71 16EA2751C 1799D9C42 24055CEC9 226A907D4 133C68F80 22CA03BF0 05F723395 2D35008AF 72 122A5C67D 3E46230BC 09F475BA9 15B4B6754 11DE75C50 28C17544F 1D85FAB8D 0D5AD9537 73 1C5497CD9 3D405F487 05535D737 06952087B 1C4744AF4 3E0EF881C 3CED3D1BB 1D91157CE 74 1D276153D 14604EA77 1661FB979 3BAC5E9FB 089F41406 283154122 2AFDCE892 1FD5E0810 75 2A620F4C2 0DE484180 2D05E6458 3E6D15A27 0A92FF0B7 2CBF7BF53 25A2F28FA 19A10CE02 76 3A77B1FBE 2B262F810 2BEEA0F46 39706BBA2 09257163F 1026D5D74 2E2483EBF 1D6527C1E 77 0DC1EBA02 383C59C77 28C7ED115 06FED31D4 16F610DC3 000890B82 2FAD16A3A 35C9AD95F 78 3E5C1EBE2 3C65A7691 2394005B6 251B1BB49 1F42BFA23 0E8608C07 24666F55C 11A5214DF 79 323E882C5 2DBFF5E13 3638BC43F 38CC5CBB5 1DBF783FB 0499418C7 2285E5A40 1A61D17E7 80 1E508F19D 0CF345F97 0E5648601 0A0951DF3 1194EE717 0A6C0B374 03C4E19EC 06F725799 81 0B54F4AEF 186A12343 04C4A60C6 27C2CC0E9 3973075A1 392C5EEB7 3933C99B1 005F98CB2 82 021B6635A 3764D0696 20942B266 0155C4EDD 3FDBF7497 37356D442 374F3DB06 2718357FE 83 120DF6F80 0E41F376A 03544C7B2 2D6795EFD 29E8811F1 1B3EFD388 01CA4C48D 2067E8033 84 07703D649 35221AB50 22141A0D7 268061A59 2D9192B05 3834711FF 3A07258C0 36253B5AA 85 1C4A564C1 26804247A 16A4DB29D 0BEF93C88 37A3EAB6C 25547B136 3FC935878 250E3BF1C 86 17049BB43 0D6426761 2BF3A471E 1665820E9 14412A13D 30D5744B0 2ECE5CAE6 01395189C 87 29615B890 0A2C5A664 216DA64F4 3D4AA9D2C 07B98342C 2603F0D76 0574BDFA8 3F9B35D5D 88 3A0414B22 0A8BE885E 155C220E4 2D3B17AA6 3017E1B48 26508C6C8 3FF25EC63 240EFF072 89 2ACD81CE3 0468D7943 2A4108121 1F2E8E67F 3AB446179 33325CA24 3006DD3A5 1A33F3A2C 90 2B038BAF7 070660C4E 30953C7B7 3E7375D04 1D6A39944 001BE5C8D 199A89253 0A82087BB 91 03BF7C836 2CBF9FC48 38EAB1C98 11C303993 3D748807F 1EBD41D17 351085EF2 1C55B94D3 92 116E0BE61 17BC8C403 31BD1EAA2 1CF87C049 2A41CC04D 3883EFEC1 3971BBBE2 190CAE3B7 93 172799BB5 3301DB193 2480B569B 34DBEFE9C 003287827 38DAEA1CB 0B0E25BB4 1972B37E3 94 3EF1F9EF4 189D8C3E0 1941998D3 259838BC9 28E545988 33BFC60D8 3572B10F3 197913B6B 95 24CF96D66 285347801 22BC70E5E 394231BCC 077583F4E 0364420AF 278FBF5CB 3850AFC8B 96 1B38C4A50 04439E0B5 3A7BEB18B 3003A36CD 329D5A2B6 1BB123AFA 049C2CC94 0F604D1DC 97 28D47EF33 24CF66B6B 24B716FA9 34ED7F6BB 186AE44B4 1380D0726 1CC51324E 16BA74F62 98 04422E60A 3424BA16C 3FF1B39DD 1A1E658F7 33457317D 14E822151 3EC02F279 28593D11D 99 0F2DF0912 21BBFA838 32D634EBF 2061148FD 09A565B74 2BCE430B7 34DAAD9FA 228ADAFE5 100 2D7EE0544 25D57B7CA 0FADAF20D 19B4F6444 3A75DF1C1 0AD3EDD56 0A4D61EEA 28C1262A5 101 1B6AEE253 0BFE02772 24AB19547 186A377A5 03089B4E8 128955F60 3A8DA9AC8 2931648B3 102 21BE0200F 00F34B4F5 34FF3261B 1A0E27AED 0A821AEFB 21B0BA404 1C6A644A4 1734EBB33 103 201FBFD73 0592E9D86 053D87C9D 3CAFC7479 22F1BA3FA 3DB25DD15 31D468990 22FF2B539 104 06C77404E 18AE64252 3963D899A 37179C03C 0FD2E3D04 191E64DBB 380B841FB 368E1DEAA 105 3A561759B 156243DE8 04325D217 33993D0B0 0CEAC2109 002242D1B 33C1D9F5E 1EC4195D3 106 17D7A9B74 1F44ABA75 17B572FE3 096008B9B 1F1E00AAE 05489F7A1 17A4C131D 1C018E923 107 0A4ACCEC8 1F294A30D 19CAEE64E 002787A1B 03EB3238D 27C10F626 1C9E656A0 3F73609F0 108 1E0E3C802 1B52D12AA 2F4E003B7 23BA7A6F1 3CAA0998A 32E96C916 168EFA1EE 28147EE33 109 1CEC9799E 215D9302B 176BB6639 003D5E371 12FE4ADB3 3106B64E2 001D9C28E 0F39059DC 110 31570792D 2260D7FEF 1AC830374 118FE7C78 08F982159 23BB2B13A 2C7944305 376396F3C 111 2D340540B 272E94D06 097C70995 0E70DDADA 1DBD644E5 341A72A58 01CBF5334 2C7999AF9 112 3FF17764D 0701DFAD3 146BDBB97 229D2D7F0 03C5DA21D 3A5916EC7 2390AC01D 197D64233 113 3E9759D5A 00B237425 0B7E646B9 190CB4D16 2646AA1D4 1A373103D 337E5EFB1 0199DE4A1 114 3FD5ADE8A 26B843860 0A2D0AA7B 3C351E07F 1B25376AE 05C553CDD 1DBC3F38D 019823A2A 115 30FF187B4 112F9D7A1 1AE977517 3760AF555 004F86368 3700975C2 0518029DE 032427D9B 116 3A86D49BB 057E649D8 2FDE33D7E 31254217C 30E05CE12 10BCC1CD7 1889C5139 38A163ECF 117 2610F5174 02A7ACB27 208B84FF0 14609CA80 0F3526318 38EBC7384 287C57BAA 279661A9C 118 014F6D77B 1036B3D2C 294F1999A 33A059187 26CCE0507 180DF3129 00A6CAE22 2AC0F23A2 119 347C62997 1912A710D 2260C531F 2F54BBEBB 0A2D90305 1BBEE20E4 0AF79997E 2376F3D0F 120 04484EB82 181977944 1C1CC2693 227ECAB0F 23F32982B 19E2F290C 1BA2300F8 0EFB06247 121 0EC048AD8 3B2168495 34FC02DA1 2C0CDEF52 0553CA222 25DFA4581 29CF66B6B 0AB9C21CD 122 2AF502148 3B00632F9 387CDC4BF 3F8B9F716 19084CD65 0354918C7 39D1FD9AA 0F5ABDB77 123 2C6E2557A 3E8A19D6B 3E6756A28 237E6E5BF 24CA57004 1D52401AD 0237F1D80 0FB2B335D 124 228F4B540 07532BF5D 101F67F52 29D8598EE 0421A0E23 2D89C2AFF 0963D2F3B 24C472A63 125 0CF3598E8 196A40BD2 00E63B26D 088A0BFCA 1C78E9016 03835236C 33071A836 3949DC586 126 3E815D747 1588D4E96 073C8D44A 303281AE4 095D31EC8 1F10F69DC 200F057D8 1F270128F 127 34F9ACB6B 384870FF1 257A863DE 34B36BA0F 3FA3D216B 27425041B 0E0DD0BAD 2E95AD35D

TABLE 13 n = 2 (Segment 2): blk q A B C D E F G H 0 13F99E8EC 3CF776C2A 3300A482C 0B2BF4791 17BECDFE8 35998C6D4 05F8CB75C 259B90F0B 1 116913829 05188F2A4 2DB0A8D00 2F770FE4A 185BE5E33 0F039A076 212F3F82C 116635F29 2 004EE1EC6 18EF4FDD9 26C80900E 1A63FB8A7 1DAA917D4 0E6716114 02690646D 0CC94AD36 3 06D4FF377 2716E8A54 16A1720C8 08750246F 393045CCB 1DBCCDE43 114A0CAD6 181690377 4 3DC4EF347 1F53452FC 01584B5D3 11D96034F 1FA62568E 11974FACA 191BE154D 397C9D440 5 05A1B6650 29835ADAD 2F6DDABE4 0976A607B 11BA92926 2456B1943 3E3FD608B 095E7584B 6 00CC66282 0560BE767 21EBAA7C6 2D8E9ACE3 198A9E285 05F3E73DD 13DA751A2 176B75E43 7 03D08ADC1 2254606FC 3C695D892 1DA9E0280 2CD4FF589 19B78A5A4 0CE67A7C6 12535A61C 8 0984647CF 0822BA46B 3EB2BC076 212596F54 11CC2E64E 120BADF9F 0DA72CEDE 30D0E106F 9 083CE5726 1F05DA925 169D93EF6 1FCADF3D3 08A5CF0BC 317C8508F 19BDCCFE7 0FACE3631 10 27583A466 1CB1634D5 03C7849F7 38C6CED00 1161C173A 15A645D3E 281A7ED92 076ADA797 11 33BA1AE8F 187F578EE 32473D69A 2458B703B 267E59071 0F317883B 3E7DEDBF1 3B9859BA7 12 0322609A3 20C4C957C 3FD638746 3FB716D79 36BD0CF1C 333B11B8F 0027ED1F2 3E7471BF3 13 3529922B1 0ECECBE04 1980B9B9E 38D60363F 18904BCED 108E3E5F1 34B95C446 338F51DAC 14 21FD50527 0EA2F7A31 1E294A159 114734A02 120B90BF3 3F3617C92 0129071E2 106640936 15 2B59354BB 275BF9761 39C6FF332 2004B3902 053F9DCB0 19D79A902 2B3125038 20649B43E 16 03A8A7A2B 091AE6721 18651FD9E 1F5415ECD 1B38EA62E 07FB0F422 3EB58896B 077FE4C7C 17 06A13CB38 340099B18 2AE6D6385 1669631F9 28E51A676 19A023391 261855F39 3E518F0BC 18 2A88F831B 09D295831 294C468DF 1477F0A13 37725C6EB 00E7DB222 27D610157 349A8FAB6 19 163E1C44D 3F98B6F4A 1805538DD 01EE3DB4A 22AA1797E 27568753E 16090F219 2C9838C01 20 34B0543DC 121B8EA82 00873B4A0 220FE7C05 2EDBEAE34 1104BDB93 0711E8C0E 0E1C107BD 21 226183AFF 15643DE71 04A4CDECB 2E67FDF8A 26D2A6D40 25E7695F1 1A99778F5 20FE0C1A3 22 0F7EAC09D 12BB72B2A 182E44301 2962EB85A 3477C1B69 3E3CF56F7 29C9D00C6 39788600C 23 31084BEB5 1DC90E345 391736CC1 3C8292AE1 38A0D515C 3977012F6 25D1F6055 36A7D3F8B 24 229D3ABAC 1044BA05F 0C391B88A 0636A90A6 0B14322AB 21ADC33E4 2DC1A3BFE 0D7FF6D1F 25 33C85B393 37BFA31B6 134F872F0 0C5EA36E1 286956ED1 1632092FA 382B4BB10 23DC3EF14 26 38E8B9BF6 0A0CE666B 207D98054 23FF360AD 121BFDA4E 347D442FD 242922C07 23C6E4115 27 263EA8516 36138BD6A 0ED9C55E7 3F0937876 03232BC24 18E5FFF26 3530CF206 3981B7414 28 1D9AC2E79 051B220E9 3F3B09EC8 0D3F6C366 0201A7CB9 3D5477092 22185FF9F 1C5AA5348 29 208D85694 22104E7C5 14BCFD3DD 3592DF665 1F4EC3265 24358076A 2D20A8000 017F2D489 30 36B3A9A2C 3F8E0F162 13ACDCCF2 16951F727 271E73555 1B3EDCDE7 162B45352 1CAFA635A 31 2D30FE705 3EC9BFC8D 1B10F8349 34F973F31 1CA96A349 1A28B4543 1C5367CE6 2DFAB0AE7 32 21D93EB5A 0E49D6211 3C6FCF774 09F44CACF 2D8CD2BEA 037DDAD3D 3BBD06D1D 39CBB996F 33 159B1F948 0183E8DCD 3A484866C 21F8DF1A5 219A58193 2D1B3C399 2275F19BA 0EFF4C612 34 22EB93A82 15047E272 15428D77B 38FFC612E 20609BE54 3226C8254 3E5568DB2 159284EED 35 34529707C 2E84585F4 20DFFB4C5 28288AA00 10EFC1E07 3C4D211FC 379087C3F 25716A7DD 36 20106354F 22AEB9FD7 3A6BAC67D 3126294C6 0FBC874AC 2DFE5675A 391B1DDAA 06BAA74D8 37 348F831C5 2E44BF3C2 3D9F6F454 20746A30E 08D183029 35C6BFEA7 2729B552B 263BB2EBD 38 202D7F08F 0DBE1C144 132F4EC09 184CD9B93 2596F5884 2A55B8217 2BEAE02D8 235A19A43 39 2DDE3FF5F 23932555C 001ED92D7 22FCD3D60 2C0737593 0B27E62FF 0693CFBDC 284D5B33F 40 1DB9AB8E9 2995EE0A1 1ACFE9892 0D41BCB9D 2E3806507 25CCD5D60 3536DF04C 0BB0A5E3B 41 3FFD4DD82 3E69CC1C1 2BC30FB74 3462F70FC 164FAE762 09B83F8AD 1DF593F3C 2DB478034 42 16E24E9B6 0A9FCFBD2 3A018544C 1ED8E2855 0037681E4 05950E1F8 1107DA097 377A25C65 43 03C9318B8 0C70A7749 0D58708C2 0CA2808C4 219E02554 39315B2F2 2E089B00F 302E135C7 44 04DC211E8 1DD20A505 21A50649F 2CA438C04 39CAD66AE 2E1BD969F 002748760 069924211 45 2E84BCF09 226F5D43C 37BE7EB10 07CDC854A 06FB50D48 08966435B 01BA5E5D2 1D34057FA 46 2D8DFD565 0A30D633F 33F93B7C6 0B330E9D2 0E659B262 130669024 19A9D5F64 38059132D 47 17E4777AE 1308F9046 2F7C0483E 1859E0943 0982C9101 05453D92C 001F53877 388A571AB 48 00D29CC63 0A6D3BDED 1CA44D2AF 388C002CA 2A3D70EF7 2DD3F5A6F 39FEAF0B6 11DFE385F 49 3E3A6CEC4 122F5E8BE 360B96301 0632CF244 2E8985A9F 0FD256C87 0449C29D4 26B713C90 50 238150687 3D96F7F7B 0091E6D18 21802352A 02F7A466E 0A5BB6648 350DA85DB 1C97F4544 51 306BA76DE 379A88697 3F0DA31E1 0EBF48C71 27F8A46EB 3F75A19F6 277002F97 275B43715 52 24D946CC1 38DF102DC 3EFE1F5B3 3C316E148 2735B20CF 0688E430F 0316DC923 24919BEA1 53 0EEAF72D2 3C7248573 1087A7BD6 08EDA9BF6 2B5D97BF4 26733DC60 1190D275B 2EC7ABD30 54 37C6AB63E 2FFC9C790 02CAA37A7 1B34A3F84 0022CD5F6 3ECF891BF 193D545E2 0172C674E 55 0848A41C3 1D8150EE7 3D8A8549A 2595F707B 00640B276 2D44EBDAE 1CAF37453 377EF590A 56 16B7A5F7D 1F5AA7998 382300A8B 218916E53 19D00E728 1EDA11790 0BBDEF9C4 1DEB15796 57 3EFB3368D 392AA88AD 29CF3CACD 03F59ED8A 1042098CA 1721B8F3A 2B5DE9312 0CB5E6F23 58 1A8B0FB9E 3FBC09C8B 3D7F3E248 034C9BCB5 1BDD89300 3392476C0 0C10AED4B 23BECA42A 59 0EBC749B6 33453C7F6 304735F5C 334628143 1DAF6E7A9 11BB9C393 226C5E4FF 170372039 60 3F9262CBC 0693308C8 21B563415 09BDCC403 0112C79D4 2DA9F1134 36AA1CD7D 3A1608BFC 61 218AC590E 0FACC734D 02132C9A3 27087557E 076B3ECE7 2EA16BA3D 0E1D452F1 3F70B027A 62 004F9DC68 25BE3AD9C 2CBD3C07B 3F9DECD71 3E771E15A 11FF2F24D 2AEA5DF67 1E838955D 63 3A04BC376 1D19254F1 00F92DD2B 3C57484F3 181D0973E 319F9CEEA 053ADEEDB 1A3C22150 64 0F78BA6BC 2DFE0E681 3035BD77D 0A0FFD148 275F50C66 2246E9053 27B2BF3E9 1741894F8 65 1ACCD0F79 22F0AEA4F 32796ADB5 134A4A876 183D989E3 204C4BF97 22300E86F 3F18744A3 66 3EB6E19EF 1B24EAB88 2E318F810 3F07B618E 26B4C0C87 31CC10EA8 169E1B650 017DF88ED 67 2BD9E8FED 0AB104122 30C9D81A0 09EA73C7F 141357B1D 000A7DB48 1DD06FD41 0AFA8EF72 68 19CA5678F 28A89AA43 1DB945917 262AF69C3 3145A4473 3742CBFF5 1BCD965E9 1B0E7FC84 69 077838B25 2BF7032F8 23DC2E014 028544277 37B411B5F 392FF6CDC 1D66F2BE9 011372DA0 70 39596216C 05A651F63 183A6AE26 0D1FCA203 0FF6F0D22 2FEB8364B 05A438ED8 32D045F13 71 3711AD513 290B237FF 20E2A9B26 0C72A0234 2F1ABBE93 19B505378 354ED915D 0C359F272 72 1D7786BA4 1CCDF053A 36828B333 0ED27AFB6 241326FC4 1A9C37F8B 0A9C3C372 05937E898 73 1053B9CDB 040B97B1D 0D4FF481D 23AD465A8 2906EBDE2 0C4F6C09D 2189C5FEA 2D90D305A 74 39073122B 35FEAA236 1B38B7A90 2E02AB9F7 219FEEA0A 36B3B2EF8 39A3F4C8B 15A42C9DD 75 2C6326A9E 33F7536C1 2A120C75F 37030CAA0 3A011882C 098C8504E 3B92D756B 175811CF9 76 38A0F736B 2BD9E9C32 3B989715A 2A646ADF4 2D02FE38C 11AC7E9E6 3F5464862 0F382B0D8 77 26897D80C 145B21D3E 143F5E320 30549707E 28126710C 122CA92BE 3AF47270C 0B544128F 78 00E931208 2E1E75EAA 374C36E5F 21724DFC5 1DFCD2028 1B3FF774E 3A826A68B 1781CDCA4 79 0C3D7268D 0B7A26BF9 1587CE5CD 1D04E1E60 36240C07D 1AC403449 0417F9622 02B9F8BED 80 1B569F488 08A3F3A46 377F03A18 2DE416045 1ED96E381 33F4F16DC 2C8DAAE4F 33E384AC7 81 13F709786 02A4E32CB 14C7F849E 09EA16987 06C849EA4 219E4B995 243CB7F07 253513BC6 82 09B83FDF2 119D60439 278290BFF 2483E6F2C 0EDEC175D 242A669C1 3EB639EF0 31EBB4CA0 83 22CAEF0E4 0B2FCDED0 19BA79607 343F81C7B 289AA213E 358AC9FFA 23956ADA1 00BC725E7 84 1186F95E3 2F95F4048 3CFBF41E2 1D1E4BE96 26B38BA65 2F715E590 2235C0029 2C89AF93F 85 33437ED6C 12F14DB69 2E70F5611 183752704 142BC8B34 3B90ECD86 1C11EB493 1022D4782 86 248457F60 05B9A28A5 0A2A5DD56 16002D9E7 34C87FB16 2E32BAE0C 21065BD64 1CCE92BB0 87 1DCE3941A 1D940ACE3 30D331B98 3D5A3BAB6 119791607 10FB0D788 2C78E9015 100B598E4 88 39C0BC811 1B886594E 27AF50C73 2DCEA05E6 0805EDCA9 3A5989B08 18AD24255 1683B7CF2 89 186A3D233 09E8B95DA 1ED9F3DBE 1B19A74F8 356CA7443 316C9FBE9 3F8A3162A 3A0BC11CC 90 02F039B63 2F02D3E75 0F5B5E89E 3D062255C 222C6AA4E 25DEA06FB 39488C071 139318BFB 91 27B5B6EE8 22154E0BD 3FF7729F1 1052B1947 3D477BF2B 3EDB6745A 1B30CF849 030F84AF4 92 27B2D40BC 01EE5E9B6 24B0ACF84 3370F65E0 067D8DFA9 1C01B9327 26FF8FDB5 3809C0CA6 93 11F581193 07B9B7A7D 1CA56B4A3 3D088CC6C 11D52C38A 344760F0A 3D3AA336D 0118CBD93 94 096990784 2960D1672 3BFD7D847 2BC297EEE 32168CF28 3912FFF6C 08ED9BAB1 34452C6E5 95 02CD48DC2 186403849 24C6EE1EA 12ED5268A 2718C00E9 27E8F18CF 145913E2D 0B09009BB 96 06B97DD08 2880C9B96 37EB87E03 14C4ED01D 17041E5DC 347A412CB 088CE591B 0BE926B22 97 116250DF7 1745B4329 1102B7093 1CA549C5A 25244AB6C 374E0F19B 274F76015 0FB738F16 98 12841B9E9 1F9C4AEEB 1445F0C98 39FFB6307 02AB688E7 0FD8B499E 28D533072 138F162EA 99 22BD9525E 2030E58C6 25F2CD033 157D93437 1442E92D2 3D6EE9DF3 3CA5B469D 0588A0FAE 100 0FDEC177D 2606157BE 2224E556C 0C6F33897 0F830DE1B 3C3F9C1D8 2AF576923 0D4173E27 101 376EF82C2 30E3C582E 0A82DE29A 1B8D454D9 079ACE6D9 2579984C6 392F28400 24CEAEDF1 102 1CD4AA9D2 1DD6F4DA5 3485B7150 105DE02F9 22168E0FA 24F48AA6C 003771A39 306890843 103 1F8303786 2C981AAE4 0819F22E9 0A1D88D55 3B4C012FD 0214CDF52 19DF3BE8F 02364E19A 104 1364A15C0 16E9F9961 17E598810 2654E5A2C 09B43C7C8 3A5E2AF45 14FC71E26 2B4BA69F4 105 12E128BEF 19166342E 04A1404B7 283D17B66 014836F64 13BE0B4B5 2F8583C08 2B19A7FB4 106 19F83FDE2 361D25170 36354011B 3FF4EC74B 1B2128FF9 0C849EB1B 096B991D8 1CA7A74AA 107 32E0BEF35 11A61714D 34C56D40B 0742C52FE 00ED2F1C4 3997FC7B7 06E414374 180DCD64F 108 18399ED59 224E6C2FF 3450F1BB7 27A1CA959 21B5E00F8 13B67DAE8 0B14C022E 0E41BBEE2 109 318D94D05 2EBB53B17 331C3E6F4 0FBCD71ED 380FF18B8 3E3C75B26 0E0088A18 17553D2A2 110 37AC7E5D5 27C9EADFA 3FC47B5E4 38699BB57 1564F8B27 3579C7FEB 13401BD88 0DB519DE0 111 0FF4D6F22 3C84242F3 2DEAE40AD 305F320A5 244CB97B0 0892DA905 3F09D5CB5 332E7DB02 112 31479E580 1B6AD13E0 16A1CF9E2 33A0A119A 1AC8388E9 3D4105F37 226501835 27AF1310F 113 1CBDAFE39 3E5A30C1C 236E9A029 063430D97 0CD91A825 02F335D7E 1989FE0BE 13C4E2A20 114 10B393370 33CB79316 2CEB44FC0 236019420 248F95ACB 35034B6F0 365691771 34A8FBCB6 115 25463FC5F 082FC0ED2 038ACE1CC 3E959B49D 21B8C04F5 08633F3A0 3A5D18159 12B3EC4C7 116 167B32C3E 06FF88387 34C3F468B 3239005B2 121C913AF 21C90CE16 28B54D557 3811CB0A9 117 221BD0503 0AF619499 21F8D40C1 1B3DA7AEE 3FA2E3B05 348466C50 10F12A28D 0E70B26AB 118 1D79A57C5 315D2460F 1402B8222 28DC66FEA 1BCF748F9 2AD5D4227 0094D2CAD 25EA22A58 119 062B39CFB 310E8818D 0F2D0A235 3F6468866 33F86F342 39CAB5BBC 2E7D6A8BF 3E9218162 120 2FCDEA0E0 1BDD766A4 2827B99BB 0B5F04CC9 1C9E02A9A 1A6675ED4 033497A06 07D4ADD44 121 3CD46CD9D 311A64A85 24DDFE6FF 3411C6FE5 0D0613CDA 0E9276056 178ACC4F8 23DEA3CB0 122 2762D6A40 306FE3843 1402589C8 382B07654 160BA3DEA 3815B54C8 273960105 2076A15E5 123 1C593A744 1562487F6 0C38617B4 2CA68266A 071C4BF93 2593F0BDC 1562436E5 199BEEA49 124 35B8C7503 278F57EAA 34A804061 19C657A74 385734710 3FAC27628 0707BED4E 32F20F45E 125 34994C46C 1C6B99499 1AF24D850 11AD795D3 19288BFE9 1360C1B96 3B5D8DBC0 2554E72D6 126 22D7095A4 34B70502A 3F0CB27D2 04FC214E6 24C0B80C5 03D6F4DC8 1432A099E 26300D70E 127 21C33416F 18B894695 3AC062614 3537CF601 00A20A8B8 1CD10BAF5 394DF1DC0 0925851ED

Simulation: Properties of SA-Preambles Proposed by the Invention

The properties of the sequences listed in Table 11, Table 12 and Table 13 and the extended sequences obtained by complex conjugating the sequences according to the present invention were investigated (256 sequences per segment). As comparison groups, known 114 preamble sequences for the IEEE 802.16e system and known SA-Preamble sequences (256 sequences per segment, refer to Table 10 and IEEE 802.16m−09/0010r2, Table 658 and Table 659) were used. Cross-correlations, differential cross-correlations (Type 1), differential cross-correlations (Type 2), auto-correlations, differential auto-correlations, and boosting levels were measured. The differential cross-correlations (Type 2) were calculated according to the method described by [Equation 26]. The boosting levels are maximum values that do not lead a maximum peak value exceeding 9 dB in the time domain. For the other measurements, refer to [Equation 9] to [Equation 18].

$\begin{matrix} {R^{a,b} = {\frac{1}{N - 1}{\sum\limits_{n = 0}^{N - 2}{\left( {a_{d}(n)} \right)^{*}{b_{d}(n)}}}}} & \left\lbrack {{Equation}\mspace{14mu} 26} \right\rbrack \end{matrix}$ where z_(d) ^((n))=(z(n))*z(n+1) and N represents a sequence length.

Table 14 to Table 19 illustrate the simulation results of the properties of the sequences proposed by the present invention (Ex,seg_(—)0 to Ex,seg_(—)2) and the comparison groups (16e, and 16m,seg_(—)0 to 16m,seg_(—)2).

TABLE 14 Cross-correlation 16m^(b), Ex^(c), 16m, Ex, 16m, Ex, 16e^(a) seg_0 seg_0 seg_1 seg_1 seg_2 seg_2 (114) (256) (256) (256) (256) (256) (256) Min 0.000 0.000 0.000 0.000 0.000 0.000 0.000 Max 0.303 0.403 0.301 0.361 0.303 0.347 0.303 Mean 0.074 0.074 0.074 0.074 0.074 0.074 0.074 Median 0.070 0.069 0.069 0.069 0.069 0.069 0.069 std. 0.039 0.039 0.039 0.039 0.039 0.039 0.039 dev. ^(a)144 known preambles for the IEEE 802.16e system ^(b)256 known BPSK-type SA-Preambles for the IEEE 802.16m system ^(c)256 QPSK-type SA-Preambles according to the present invention

TABLE 15 Differential cross-correlation (type 1) 16m^(b), Ex^(c), 16m, Ex, 16m, Ex, 16e^(a) seg_0 seg_0 seg_1 seg_1 seg_2 seg_2 (114) (256) (256) (256) (256) (256) (256) Min 0.000 0.000 0.000 0.000 0.000 0.000 0.000 Max 0.236 0.329 0.235 0.310 0.234 0.319 0.235 Mean 0.041 0.041 0.042 0.041 0.042 0.041 0.042 Median 0.037 0.037 0.038 0.037 0.038 0.037 0.038 std. 0.025 0.025 0.025 0.025 0.025 0.025 0.025 dev. ^(a)144 known preambles for the IEEE 802.16e system ^(b)256 known BPSK-type SA-Preambles for the IEEE 802.16m system ^(c)256 QPSK-type SA-Preambles according to the present invention

TABLE 16 Differential cross-correlation (type 2) 16m^(b), Ex^(c), 16m, Ex, 16m, Ex, 16e^(a) seg_0 seg_0 seg_1 seg_1 seg_2 seg_2 (114) (256) (256) (256) (256) (256) (256) Min 0.000 0.007 0.007 0.007 0.007 0.007 0.007 Max 0.239 0.315 0.237 0.301 0.239 0.315 0.238 Mean 0.065 0.067 0.077 0.067 0.077 0.067 0.077 Median 0.056 0.063 0.073 0.063 0.073 0.063 0.073 std. 0.049 0.050 0.040 0.050 0.040 0.050 0.040 dev. ^(a)144 known preambles for the IEEE 802.16e system ^(b)256 known BPSK-type SA-Preambles for the IEEE 802.16m system ^(c)256 QPSK-type SA-Preambles according to the present invention

Referring to Table 14, Table 15 and Table 16, the QPSK-type SA-Preambles according to the present invention have lower maximum cross-correlations all the time than the known BPSK-type SA-Preambles of the IEEE 802.16m system.

TABLE 17 Auto-correlation 16m^(b), Ex^(c), 16m, Ex, 16m, Ex, 16e^(a) seg_0 seg_0 seg_1 seg_1 seg_2 seg_2 (114) (256) (256) (256) (256) (256) (256) Min 0.091 0.139 0.126 0.139 0.126 0.139 0.119 Max 0.203 0.333 0.250 0.306 0.237 0.361 0.264 Mean 0.134 0.213 0.178 0.206 0.173 0.212 0.177 Median 0.133 0.222 0.175 0.194 0.169 0.194 0.176 std. 0.020 0.034 0.024 0.034 0.022 0.038 0.023 dev. ^(a)144 known preambles for the IEEE 802.16e system ^(b)256 known BPSK-type SA-Preambles for the IEEE 802.16m system ^(c)256 QPSK-type SA-Preambles according to the present invention

TABLE 18 Differential auto-correlation 16m^(b), Ex^(c), 16m, Ex, 16m, Ex, 16e^(a) seg_0 seg_0 seg_1 seg_1 seg_2 seg_2 (114) (256) (256) (256) (256) (256) (256) Min 0.127 0.133 0.128 0.133 0.134 0.119 0.144 Max 0.408 0.315 0.253 0.357 0.244 0.357 0.264 Mean 0.216 0.214 0.181 0.218 0.184 0.216 0.184 Median 0.211 0.217 0.179 0.217 0.183 0.217 0.183 std. 0.044 0.035 0.024 0.039 0.023 0.036 0.023 dev. ^(a)144 known preambles for the IEEE 802.16e system ^(b)256 known BPSK-type SA-Preambles for the IEEE 802.16m system ^(c)256 QPSK-type SA-Preambles according to the present invention

Referring to Table 17 and Table 18, the QPSK-type SA-Preambles according to the present invention have lower maximum and mean auto-correlations all the time than the known BPSK-type SA-Preambles of the IEEE 802.16m system.

TABLE 19 SA-preamble signal boosting levels FFT Ants 512 2048 16m^(a) 1 1.59 dB 1.49 dB (FSTD) 2 2.18 dB 2.09 dB 4 2.84 dB 3.11 dB 8 3.54 dB 4.40 dB Examples^(b) 1 1.87 dB 1.69 dB (FSTD^(c)) 2 2.51 dB 2.42 dB 4 4.38 dB 3.50 dB 8 8.67 dB 4.95 dB ^(a)Known BPSK-type SA-Preambles for the IEEE 802.16m system ^(b)QPSK-type SA-Preambles proposed by the present invention ^(c)Frequency Switched Transmit Diversity

Referring to Table 19, the QPSK-type SA-Preambles according to the present invention have higher boosting levels than the known BPSK-type SA-Preambles of the IEEE 802.16m system, in all of eight cases for 512-FFT and 2048-FFT. Especially, in the cases of 4 antennas and 8 antennas for 512-FFT, the QPSK-type SA-Preambles according to the present invention have at least twice as high boosting levels as the known BPSK-type SA-Preambles of the IEEE 802.16m system. Thus, it can be concluded that the QPSK-type SA-Preambles according to the present invention have low PAPRs than the known BPSK-type SA-Preambles of the IEEE 802.16m system.

Table 20 illustrates power boosting according to FFT sizes and numbers of antennas. The power boosting was optimized for the sequences listed in Table 11, Table 12 and Table 13. In the time domain, a maximum peak does not exceed 9 dB.

TABLE 20 FFT Ant 512 1024 2048 1 1.87 1.75 1.69 2 2.51 2.33 2.42 4 4.38 3.56 3.50 8 8.67 6.25 4.95

In Table 20, in the case of a single antenna and 512-FFT, the SA-Preambles are boosted at a boosting level of 1.87. Then a boosted SA-Preamble at a k^(th) subcarrier may be expressed as c_(k)=1.87b_(k) where b_(k) denotes an SA-Preamble (+1, −1, +j, −j) prior to boosting.

Table 21 illustrates block cover sequences for each subblock in an SA-Preamble. A block cover sequence converted to binary values {0, 1} is mapped to {+1, −1}.

TABLE 21 (FFT, number of Segment ID antennas) 0 1 2 (512, 1) 00 00 00 (512, 2) 22 22 37 (512, 4) 09 01 07 (512, 8) 00 00 00 (1024, 1) 0FFF 555A 000F (1024, 2) 7373 3030 0000 (1024, 4) 3333 2D2D 2727 (1024, 8) 0F0F 0404 0606 (2048, 1) 0F0FFF00 00000FF0 0F000FFF (2048, 2) 7F55AA42 4438180C 3A5A26D9 (2048, 4) 1A13813E 03284BF0 391A8D37 (2048, 8) 0D0EF8FA 0C0BFC59 03000656

FIG. 16 illustrates exemplary ranging channel structures in the IEEE 802.16m system. A ranging procedure is used for various purposes. For example, the ranging procedure is used for uplink synchronization, uplink resource request, etc.

Referring to FIG. 16, the ranging channel includes a Ranging CP (RCP) of length T_(RCP) and a Ranging Preamble (RP) of length T_(RP), in the time domain. T_(RP) is proportional to the reciprocal of a ranging subcarrier spacing ΔfRP. Table 22 illustrates the ranging channel structures.

TABLE 22 Format Ranging Channel No. Structure T_(RCP) T_(RP) Δ f_(RP) 0 Structure 1 T_(g) + k × T_(b) ^((a)) 2 × T_(b) Δ f/2 1 Structure 3 2 Structure 2 m × T_(g) + n × T_(b) ^((b)) 2 × 2 × T_(b) ^((c)) 3 Structure 3 7 × T_(g) + T_(b) 8 × T_(b) Δ f/8 4 Structure 4 T_(g) T_(b) Δ f

In Table 22, T_(b) denotes a useful symbol duration, T_(g) denotes a CP duration, and ΔfRP denotes a subcarrier spacing. For details, refer to Table 7 and its description. k may be expressed as k=┌{[N _(sym) ·T _(s)−2·(T _(RP) +T _(g))]/3}·F _(s) ┐/N _(FFT)  [Equation 27] where N_(sym) denotes the number of OFDMA symbols in a subframe, T_(s) denotes an OFDMA symbol duration, FS denotes a sampling frequency, and N_(FFT) denotes an FFT size. m is (N_(sym)+1)/2, and is (N_(sym)−4)/2. For details, refer to Table 7 and its description.

In ranging channel format 0, repeated RCPs and repeated RPs are used as one ranging opportunity in a subframe. Ranging channel format 2 includes one RCP and repeated RPs in a subframe, and ranging channel format 1 includes one RCP and two RPs. If ranging channel format 1 is used, there are two ranging opportunities in a subframe. Ranging channel format 4 user identification card connecting device is identical to ranging channel format 1 in structure and different from ranging channel format 1 in length. In ranging channel format 4, first to fourth RPs RP1, RP2, RP3 and RP4 correspond to first to last parts of a ranging sequence, respectively.

FIG. 17 is a block diagram of a transmitter and a receiver according to an embodiment of the present invention. A transmitter 1810 is a part of a BS and a receiver 1850 is a part of an MS on a downlink, whereas the transmitter 1810 is a part of the MS and the receiver 1805 is a part of the BS on an uplink.

Referring to FIG. 17, a sequence processor 1820 of the transmitter 1810 may perform various operations related to sequence generation, sequence selection, sequence extension, etc., or it may control other modules to perform the operations. The sequence processor 1820 may select a base sequence from a memory or generate a base sequence using a sequence generator. Also, the sequence processor 1820 may generate a new extended sequence out of the base sequence through complex conjugation and/or a reverse operation. The sequence processor 1820 may output the selected/generated/extended sequence to a modulator 1830. The modulator 1830 modulates the received sequence according to the type of the sequence by BPSK, QPSK, 8-PSK, etc. The modulator 1830 may perform complex conjugation and/or the reverse operation on the modulated sequence under the control of the sequence processor 1820. An additional module may be separately configured so as to perform the complex conjugation and/or the reverse operation. The modulated sequence is mapped to subcarriers by the modulator 1830 or an additionally configured module. According to a channel that will carry the sequence, the modulated sequence may be mapped to consecutive or distributed subcarriers. A Radio Frequency (RF) module 1832 generates an RF signal by processing the mapped sequence to be suitable for an air interface (e.g. digital-to-analog conversion, amplification, filtering and frequency upconversion). The RF signal is transmitted to the receiver through an antenna 1834.

The receiver receives the signal at an RF module 1854 from the transmitter 1810 through an antenna 1852. The RF module 1854 provides input samples by processing the received signal (e.g. filtering, amplification, frequency downconversion, and analog-to-digital conversion). A demodulator 1860 provides a sequence by demodulating the input samples. A channel estimator 1880 calculates a channel estimate based on received pilot values. The demodulator 1860 equalizes the received sequence using the channel estimate and thus provides a sequence estimate. A sequence detector 1870 detects or estimates the sequence transmitted by the transmitter 1810 by the exemplary method illustrated in FIG. 6 or any other method.

Controllers/processors 1840 and 1890 manage and control the operations of various processing modules of the transmitter 1810 and the receiver 1850, respectively. Memories 1842 and 1892 store program codes and data for the transmitter 1810 and the receiver 1850, respectively.

The embodiments of the present invention described hereinbelow are combinations of elements and features of the present invention. The elements or features may be considered selective unless otherwise mentioned. Each element or feature may be practiced without being combined with other elements or features. Further, an embodiment of the present invention may be constructed by combining parts of the elements and/or features. Operation orders described in embodiments of the present invention may be rearranged. Some constructions of any one embodiment may be included in another embodiment and may be replaced with corresponding constructions of another embodiment. It is obvious to those skilled in the art that claims that are not explicitly cited in each other in the appended claims may be presented in combination as an embodiment of the present invention or included as a new claim by a subsequent amendment after the application is filed.

In the embodiments of the present invention, a description is made, centering on a data transmission and reception relationship between a BS and an MS. In some cases, a specific operation described as performed by the BS may be performed by an upper node of the BS.

Herein, the term ‘BS’ refers to a terminal node of a network, which communicates directly with the MS. Namely, it is apparent that, in a network comprised of a plurality of network nodes including a BS, various operations performed for communication with an MS may be performed by the BS, or network nodes other than the BS. The term ‘BS’ may be replaced with the term ‘fixed station’, ‘Node B’, ‘enhanced Node B (eNode B or eNB)’, ‘access point’, etc. The term ‘MS’ may be replaced with the term ‘User Equipment (UE)’, ‘Mobile Subscriber Station (MSS)’, ‘mobile terminal’, etc.

The embodiments of the present invention may be achieved by various means, for example, hardware, firmware, software, or a combination thereof. In a hardware configuration, the methods according to the embodiments of the present invention may be achieved by one or more Application Specific Integrated Circuits (ASICs), Digital Signal Processors (DSPs), Digital Signal Processing Devices (DSPDs), Programmable Logic Devices (PLDs), Field Programmable Gate Arrays (FPGAs), processors, controllers, microcontrollers, microprocessors, etc.

In a firmware or software configuration, the embodiments of the present invention may be implemented in the form of a module, a procedure, a function, etc. For example, software code may be stored in a memory unit and executed by a processor. The memory unit is located at the interior or exterior of the processor and may transmit and receive data to and from the processor via various known means.

Those skilled in the art will appreciate that the present invention may be carried out in other specific ways than those set forth herein without departing from the spirit and essential characteristics of the present invention. The above embodiments are therefore to be construed in all aspects as illustrative and not restrictive. The scope of the invention should be determined by the appended claims and their legal equivalents, not by the above description, and all changes coming within the meaning and equivalency range of the appended claims are intended to be embraced therein.

INDUSTRIAL APPLICABILITY

The present invention is applicable to wireless communication systems, especially wireless communication systems supporting at least one of SC-FDMA, MC-FDMA, and OFDMA. More particularly, the present invention is applicable to a method and apparatus for transmitting and receiving sequences in a wireless communication system. 

What is claimed is:
 1. A method for transmitting a sequence at a transmitter in a wireless communication system, the method comprising: obtaining a modulation sequence from subblocks of a first sequence or a second sequence, wherein the second sequence is obtained from repetition of the first sequence in a same order, and wherein the modulation sequence is obtained by converting element X_(i) ^((q)) of each subblock into two Quadrature Phase Shift Keying (QPSK) symbols v_(2i) ^((q)) and v₂₊₁ ^((q)) by using the following equation: $v_{2i}^{(q)} = {\exp\left( {j\frac{\pi}{2}\left( {{2 \cdot b_{i,0}^{(q)}} + b_{i,1}^{(q)}} \right)} \right)}$ $v_{{2i} + 1}^{(q)} = {\exp\left( {j\frac{\pi}{2}\left( {{2 \cdot b_{i,2}^{(q)}} + b_{i,3}^{(q)}} \right)} \right)}$ where X_(i) ^((q))=2³·b_(i,0) ^((q))+2²·b_(i,1) ^((q))+2¹·b_(i,2) ^((q))+2⁰·b_(i,3) ⁽¹⁾, i is an integer from 0 to 8, and q is a sequence index; and mapping the modulation sequence to a plurality of subcarriers in an Orthogonal Frequency Division Multiple Access (OFDMA) symbol, wherein the first sequence is one of the sequences in Sequence Set 1, Sequence Set 2, and Sequence Set 3, given as follows: Sequence Set 1 for segment 0 (hexadecimal format) q\blk A B C D 0 314C8648F 18BC23543 06361E654 27C552A2D 1 281E84559 1A0CDDF7E 2473A5D5B 2C6439AB8 2 00538AC77 38F9CBBC6 04DBCCB40 33CDC6E42 3 3BE4056D1 2C7953467 0E5F0DE66 03C9B2E7D 4 3DBAAE31E 254AE8A85 168B63A64 05FDF74FB 5 177CE8FBC 21CEE7F09 397CD6551 01D4A1A10 6 3B78215A1 17F921D66 385006FDC 011432C9D 7 01FF4E172 2A704C742 3A58705E1 3F3F66CD2 8 1A5B7278E 1630D0D82 3001EF613 34CCF51A1 9 032E31906 2DD318EAA 1DE55B14D 0EF4B6FB3 10 174725FFD 0D2FB1732 124470F56 292D9912B 11 1F1DCD669 293DD1701 0C34F1B84 28496EE51 12 22E4AA041 3810362F1 1955F1DE7 0D6D2F8BE 13 14300B522 152E6D482 168DF6E43 0740B7AE0 14 12C65ED00 317643CD7 2C637A415 15E3E5185 15 1DD6453F0 032C4BD39 082659BD5 320C5E691 16 068AE7EE9 16F724910 3803DD9BD 2A31A2FFB 17 1D651280A 2C7BCF443 17324EFB0 236E5C411 18 27341650F 1B520099C 09AC91114 000A5F48B 19 3A01E2FB2 0DF5B257B 019D1C63A 0EA7DCDDB 20 2DDFAEB05 21D0A1700 0FA09BB78 17DA7F8BB 21 1B625E3F9 0F708F756 00CD97B18 3F036B4DF 22 2DA48D5A9 0C085BD17 01903428A 3DF2A30D9 23 30DBAC784 20C3B4C56 0F1538CB7 0DDE7E1BE 24 3188E8100 385FEFE2D 3967B56C7 3F62D246B 25 339467175 2DE49506B 27B7282A9 0254470A3 26 02AFA38DC 0F2AFDDF4 1A05650E2 061439F88 27 1B364E155 086FF808C 29F1BA9DC 0A830C788 28 38ECFC198 07034E9B3 2340F86B3 07562464C 29 375C4F5AB 3C0F5A212 0EA21BC30 13E8A26F2 30 2B773E3C5 3849BBE6C 1CAD2E5AB 0405FA1DE 31 1E878F0BE 0AE5267EC 376F42154 1CD517CC2 32 20E200C0A 1C94D2FF1 213F8F01B 369A536E0 33 28D2E001C 3C51C3727 106F37D0E 1FB0EFDD1 34 08EFC44B5 1B484EABE 05FEB2DE2 211AF91B5 35 337C618F4 0A4C31DDA 1D93003D6 006D7D088 36 38375C2FF 18C78FD02 30C11EF53 3916581DD 37 2E10B0D05 2EF203893 2491D95F1 34D995B51 38 153E7269D 2391C7BFC 1ADD3A595 0EFD3086E 39 3B58C7BFF 0BA76496E 3AD0B7BBF 1D6D10FB3 40 37AC5194A 390BD9C00 3A48C0461 12FBCE4C6 41 0FEF20C67 31EC9EA3F 275B31143 22DA4F02B 42 080EDC49B 17AD7F7BA 390775B3C 1380B00DA 43 2DB485795 1B3252799 39AD0211C 3AAE31B76 44 11BB4F78A 12CCE1428 2C67EEF99 20E3F841A 45 1C66335E5 0CA9B9BD2 3213028AE 15542DD28 46 360FB966B 17D878955 1C1D67093 065B84F3A 47 002CE84DD 0616DD253 3EB188345 1FF852926 48 233C0A71F 22E428104 0325F8170 39566B188 49 0583F9F73 378380CB6 059D8A960 3E3442C7F 50 08DF9CC66 2C2E7AA8F 3CB241ED2 03216B4D2 51 3D1FF6041 2CE2AB97F 01A734F3B 1DCF9F3C5 52 123218E40 3AA057589 20F73A16F 26E3BCA5F 53 185AEDEA4 0418B3643 382F7700A 3FC35ED60 54 2E194E2BF 3302A0B28 1836001EE 154A4738A 55 0B76405D3 231AAA728 0EE05E9B6 0093A21F2 56 07AD23A3A 2091957F1 3B9D8CBF0 21E4160BE 57 226D70EBF 3ED15246C 364130C46 22F6D4AA3 58 3F49B0987 305231FA6 0CF4F6788 3B9296AED 59 1D62AC9A4 104EDD1F5 1B0E77300 1CED8E7F0 60 21314C269 28600D12A 22E4F1BAA 044E211B1 61 02C029E33 1BA88BE4D 3742AE82F 21EF0810F 62 16F9D2976 10185ECE6 2821673FD 02674271C 63 06E4CB337 32A31755D 062BE7F99 1417A922D 64 18D139446 2426B2EA8 352F18410 1133C535E 65 22443017D 2265A18F5 14E1DAE70 11AC6EA79 66 2018F4CA9 3A0129A26 39BDA332E 1941B7B49 67 0CC97E07D 11371E5FF 31DFF2F50 17D46E889 68 275B00B72 125F0FE20 0FB6DE016 0C2E8C780 69 250616E04 0882F53BF 11518A028 3E9C4149D 70 212957CC2 03DD3475B 044836A0B 2463B52C0 71 2922BD856 22E06C30C 390070AED 09D6DC54F 72 29CB07995 007EE4B8B 16E787603 07C219E93 73 11F3A0A2F 38C598A57 3FE72D35B 1F655E0D1 74 05FC8085D 345A5C470 07DAAE1E9 0D7150B88 75 399F32F6E 2EEB17A8E 0D61665D0 2138EE96F 76 3962CC581 2337D2983 286FD7BBA 185126E0E 77 1C85C13AF 290C37167 1FDD26E8F 0C38736B8 78 2D48D6C00 2D9BC8DFE 10FF1E128 25C96BA85 79 396B88B2F 0029F4BDB 30D098CAD 0D54D12CB 80 21E03CD65 1A2FE5B92 2851F8445 0251E386C 81 2CEA1E6BB 006C97E74 00C2B887D 23461AF95 82 208FC2A1F 381C5733A 03F11D7E3 07ED6A7B7 83 2061E47F0 22EAA0AD3 24796BB65 03C59B4D8 84 381AFFB73 212B5E400 1F1FE108E 04BF2C90D 85 058B23433 0904C6684 158CADB9E 11BA4B978 86 34857F3DB 2CB44F7BF 111A065D3 1BEAB392E 87 38EBB8BF1 32ED6E78F 2B0BA4966 2188282AA 88 234F0B406 02FB239CD 15AD61139 2250A5A05 89 2D0FE8D16 0C14E3771 07DE5320C 0640C2762 90 3225B4D60 3013B75F2 2A77AE5C5 2C25377EE 91 0D55231FD 247907F31 0CFA0B049 36D069A95 92 207420EAC 26FCFE182 3FE7B31C6 15B320E13 93 3C9C7404A 092B77FEB 3B9865B46 349456F61 94 1CA4C048D 2B4D50621 2BF917627 3EA2CC5E1 95 04CEC1C82 1F828DD00 30122C790 1AD8A7895 96 37F8BB035 2F0897994 333F5F096 0F28AB363 97 02FD351E6 03E316288 2FCAEB4F8 1C5A80CE3 98 1623B3D0F 103224DB0 0FB936BC8 2EED7F082 99 02F75DE8F 2E61A834D 02A692866 1F21044A3 100 3A858659E 2F7A87BE0 135FD561D 27B3B651A 101 3F3B247E1 32D02B245 16B98A593 1E4CCFF18 102 3A9E8B49B 239656AD1 3396D1C51 06F4DCF40 103 38622F3AF 24BF9BB7F 1D2729010 15877B93A 104 2A0AB7033 1AFA65DE1 1198D0AD6 38E80C86A 105 1B0DE4333 27FE0F6D1 0F00B2888 0BDA322FF 106 1C7E636BF 000E9C271 2B44F4F30 28255BF77 107 1FDE98AE0 0CD076B07 171124FB5 33F098288 108 28EE855ED 2A704C371 03288F4B0 3C83E26C2 109 26238A065 0FBD7BCDD 02507CF76 059F69484 110 3CDCD6CBE 1446783DA 1626C83F9 2FD4C4DF3 111 043B07DD7 28D9C2155 2CCEF57A8 34254C1B7 112 345E8FCAC 226BD7EFA 27341A51C 23854F031 113 16FBEFA72 1B5EF9484 2DEE7A5BF 097695C12 114 3484086B1 2DFA56B9E 226E8AFE5 285F45484 115 1117B5E7D 122A4D471 1AC936544 267010D71 116 0B3161E37 038C3DC98 100793647 1A95D8D36 117 04FEF7231 381910B63 298783078 30CE5EC1C 118 18F644052 2051880EC 23ADBF949 04237280A 119 39E14BBCB 1DBDA9EF4 3ECCAD8D3 1BA3EF99D 120 2DD6F3F93 0FC282088 14A143DDD 0AB840813 121 1C1D063F9 3F4EF6DCC 00128D932 145E31F97 122 3383C846F 12128F29B 19985CE7D 2834CBBF2 123 0129D260B 238A85BA0 2D81AA924 3917048B6 124 05E0F8BDC 3D978C1F1 266F83FCA 0E89D715A 125 1575D1CE9 26F291851 3A7BB6D2C 12CC21A3A 126 101E5EC7A 0B75BCF3B 13ED25A86 35FC032B6 127 1EF89091A 11A653D2C 223FC1F42 2F7B97B31 q\blk E F G H 0 3A7C69A77 011B29374 277D31A46 14B032757 1 1CA9304C1 0AC3BECD0 34122C7F5 25362F596 2 181114BE4 0766079FA 2DD2F5450 13E0508B2 3 1857FD2E3 15A276D4F 210F282AF 27CE61310 4 3948B6856 33656C528 1799C9BA1 004E0B673 5 1730F9049 067D89EA9 3AC141077 3D7AD6888 6 24ED16EA6 0A54922F1 02067E65D 0FEC2128D 7 07CA4C462 1854C8AA3 03F576092 06A989824 8 2120C250A 06893FA2D 156073692 07178CFA7 9 27DED0610 1BC8440D3 0ED86BF8D 14FAFDE2C 10 1571408A7 227197AE9 2430BC576 0B67304E0 11 3DC41327F 071C06523 28E1657B6 02588EFDA 12 11F31358E 3EB27BB12 1F4E60111 119BDA927 13 14FE7DCDD 0FA092626 23697615A 1F1331EB8 14 0F5CBB9E0 23290B156 26F37EFE8 1AA174793 15 224E555B2 3A9615A8D 1BED03424 28E6A9CED 16 010BF5237 33CB067E6 0280C28B7 184417B94 17 381215183 2F076E64E 0A6F2EE74 3DA4196B7 18 30AB4B9B6 2D0DB0DE6 1CF57978A 2D424406B 19 242D96605 2DA675F15 1DEC54193 3B6341C16 20 06E883B3F 02E6B929B 2C1C413B4 030E46DD1 21 2CF08C3E5 213A5A681 14A298D91 3D2ED63BC 22 29061309A 16F7DC40E 2AF88A583 27C1DA5E9 23 2C312903B 0FF21E6C2 032C15DE3 26C9A6BA4 24 1826A755E 2CDA895EA 2FAB77825 1B525FF88 25 3374310AF 2DF20FD64 3848A6806 11C183E49 26 11C275BE0 30C41DEC9 119E070E9 1E76542C1 27 2E70D0B3A 34EA776B1 3D13615C0 15FC708D4 28 22823E455 1F68D29E9 257BB66C6 1083992F1 29 17C039773 283AD6662 1F63AB833 2DE933CAF 30 1B27B4269 3B3BF258F 300E77286 39599C4B1 31 302781C47 123FEC7E0 16664D3D8 24B871A55 32 161588399 29389C7FC 259855CAC 06025DCE2 33 2CD9D33C3 1EA190527 0BB5A6F9E 074867D50 34 0CF52B1E1 002B5C978 11D6E5138 0D402BDD2 35 348043A6D 325E05758 2C53EEEB8 15ED8E614 36 1B75263FF 2D8DFD6A9 00C4E8482 1D201F96A 37 32214BDF5 3E45674B1 3E74AC66E 1B813A999 38 00AD88A8E 0D8B007CA 0F22C5F9D 010E86385 39 3A607BEFC 28F122A95 057950727 179449CB7 40 2A8DD4171 10E9F1E34 251F5D167 1124E96B1 41 352C0F648 21FF5B9F3 3E5BC2372 0A1AE08FE 42 2477FF17C 2E6D9E5AF 05381F2DD 26143CC17 43 30532A187 1C8EA5F5A 2EA6E4D6B 30570A2E4 44 20CFCD5F2 1618A7B94 111FF6092 2ED034E06 45 290F7DAE2 2137F02D5 17DF9445D 24F162FFB 46 1A1D955E3 24C73C11E 270EA9EB2 114DCA02C 47 37E160F00 040DF51EC 1857A33BA 230FD8A0D 48 32DA16A4A 039FDF1DC 27A3E946C 0D69F26D9 49 026138ADB 25F370F1E 09D3EB2CC 2D37D50C0 50 39736B451 25F6F113F 08FD2AC3C 1974574FD 51 268D595CA 1FBD2A8B8 0F1449F86 370C352FD 52 3A7330DC6 12C659384 39D99FF1B 276DFC540 53 07BA2F838 1BC840C93 2469A41EC 0CE7B4CB0 54 36A3BBD72 23CCD0EB1 044B3A13B 2B50C8057 55 2065A01D0 1F2B810D4 1082F3A73 1DAFEA492 56 1BFB25224 3D9085D16 03076DD39 1DBCF8D03 57 3FCC9A71B 3B9283111 0484F0E58 14574BD47 58 2346190C5 3365711F4 078900D4A 352686E95 59 388E8002C 1FE6199F4 02239CB15 1FE5D49A2 60 0DECFE1B4 3E5B208CC 1CFC91293 21E7A906B 61 17D23F465 240446FB5 17CCE51D9 2C0B0E252 62 3A8A75B7C 226D4BF0F 2216004E5 0E8605674 63 2271C07E5 24D6111FA 3F2639C75 0CE2BB3A0 64 10CC1A28F 1A8B54749 22A54A6F4 2F1920F40 65 31A740502 3B14311E7 3AA31686D 26A3A961C 66 03BBCE0D8 20E65BD62 2E4A6EE6C 3B095CCB3 67 352B75BEA 1F1529893 21E6F4950 1BD034D98 68 3026E5719 119910F5F 3B647515B 1D49FED6F 69 09F72A7FB 0CC6F4F74 2838C3FD1 08E87689B 70 0342FB4B0 34AD95E9B 2936E2045 3B0592D99 71 3485FA515 064D60376 07E8288B3 3DD3141BF 72 1031B93DD 23DEFF60B 30F1D7F67 0EFE02882 73 0B3AC0D92 3430DDB1A 3BAADBF42 02D6124C0 74 25D2A5B10 16F8E5021 3240EFC71 0F0F5922D 75 3F8119063 01B5048F7 27075153D 265DF8280 76 1F95AD927 0F7EBC374 1E3A4B6FF 20CA9B9BD 77 0174DB972 0A921E3CC 097557C9D 09452C1E6 78 0FB071B8E 0F09B3C9C 1A3E11441 38EDDA03D 79 1D0823F55 2DC53B9AA 11BCF7438 33F6EC091 80 1468950D8 1A8B39748 001B42236 26CD82DA5 81 0E9CB2BD2 0B0EA3022 1FB56A7A3 25A7FA625 82 1FEC85E09 3D61E0440 356F4B1C3 3756E5042 83 32A75E105 22155381B 23E5F041C 155D2D7F9 84 3C1A949D9 2854A9B45 001B09322 3A9372CC1 85 1854368F4 1919ECEA7 147F1FD34 2E228AA3C 86 27F081ED8 3E67D1186 0F6265AC5 27716FAF9 87 00D49B758 1765BA752 2B50AFDCC 068C82450 88 1CD8117E0 0D849163F 268C7A5A6 22A802020 89 1CBD9FF4E 37A91986D 2024DA401 164D4A84C 90 03C8DF835 346E80FCB 116B79FA5 356D2B604 91 10D4CDE71 1A32544D7 38336885F 173ECC08D 92 187AA34A8 1B52253BF 1FA16669D 3725A81A5 93 39B7C6A66 3075EC990 01BE637DF 330897B17 94 33EC0A1E3 05FE0F747 349553D72 396077301 95 1CE0912C0 298382F37 2D4D33F06 001364B36 96 20036829F 338017E2D 3A5A05D76 0CC02E5E0 97 3D3AC3FDD 3E456746D 119A5381F 1581C894E 98 26C91513A 2F12E4C31 290F3AEF2 392CBFF67 99 2D7881A95 18651EE05 11FE3D308 39EED56DA 100 05E131CB9 0D5865123 2CD6991E5 3EE6DF705 101 0C4A9D285 06D519FE2 023A336CD 1B20E999E 102 15D819D3F 2A3061144 20BD2A33E 2FFB139CD 103 00376B0E7 0FF064887 3505CFD9B 354C366B6 104 27693D541 3BB26F3D4 39154881C 0E7DD6B6B 105 2759B5A4F 0543A2D27 0C36DD1E5 04E9A262D 106 1CC4D69CE 03F4C57B2 3E926D59B 00AA39BDB 107 1E0B3043E 39731D117 3E7ABC2C8 19CC50279 108 0A905148B 18C66BB94 1BCC32537 10D71AB44 109 3FE0D6F77 2466A50DB 3C07A75B2 2DC0F099E 110 13A59A2D1 2C903D2A3 0FD37F076 0B1039EDD 111 09B933B2F 1FA410127 10BD5E9E6 010EC6389 112 04C297212 044DED8E8 319B3BFB8 37DBBBF57 113 08AEAD5E8 3DA7C1327 2B81F3E2D 31AFBED32 114 3E69AC8E1 1CB33645F 2DE53BC30 2F6ED567E 115 10428CA47 24B72A000 2E27FE185 1E62C1403 116 399668787 06C0D4922 25F48AA58 2DFFF1789 117 29F6F299D 3C34CA770 37BAAB139 3D2069B65 118 18304E663 287364EFF 314698D78 149A21E51 119 26D85CEBF 270547292 0FB3C7826 0131E73D6 120 0B973037C 29535C9AB 0DF8DA2AC 271CBC095 121 0B21590D1 38F1602D8 3AC2EBB74 2320957C5 122 1E1513B3D 364DB5800 33EE3F46C 01A865277 123 36F857692 1D2F813C3 0505FB48B 3DC438BC5 124 01821DEA4 12D9AE517 22F8EAC2C 3C098DA58 125 2975589B0 39CF607FF 388ABF183 3D3BAAB0B 126 2F6209FF0 13C7B2041 1F2791466 3A759A6C2 127 2CA4EE011 00F68767D 10FE34682 018339212

Sequence Set 2 for segment 1 (hexadecimal format) q\blk A B C D 0 20A601017 10D0A84DE 0A8C74995 07B9C4C42 1 1364F32EC 0C4648173 08C12DA0C 19BD8D33A 2 1C6548078 0A0D98F3C 0AC496588 38CBF2572 3 03A8E3621 2D2042AF5 2AB5CC93B 05A0B2E2E 4 07C4F8A63 3E6F78118 32CCD25F2 1792A7B61 5 2D7EE485A 2C3347A25 3B98E86AF 242706DC3 6 0307936D0 21CE15F03 392655B2D 17BE2DE53 7 05A10F7B7 31900ACE0 28DCA8010 2D927ABE5 8 092C4FED1 268BF6E42 24576811F 09F2DAA7F 9 29F162A99 1F739A8BF 09F684599 1BEC37264 10 0E4616304 0FABDCD08 0F6D6BE23 1B0E7FEDD 11 32DD51790 237D6ACFA 2F691197A 16724EA58 12 1BB0FD4D3 235F10A55 1C7302A27 1148B18E5 13 0FB38C45B 069DF29E9 00F93771B 3AA35746D 14 365FBEDAC 27710945F 2AA367D61 05A484318 15 3038BC77D 2A45D29EC 156173792 03EC7679E 16 1F22158E4 3F02A1D37 2767EC03F 1C8CD535A 17 16521E709 12C2DB8FE 3A596C221 1562D5C27 18 2EC951A24 1ED768F3F 11217930A 39DB44855 19 3EA159E72 24ADE96FE 3458C73A6 30674E1FB 20 2AD0E6696 04F4077D9 1BB279A53 38957605B 21 083637980 34F2ED66F 282846A88 19D5E40A6 22 3E7D64856 1DB0E599E 159120A4B 1FC788139 23 3956371B8 1D67BE6E5 1EFCF7D53 041A5C363 24 0818C47A9 1F945634B 1C5ED3403 1043B5BF4 25 3A6618167 3A0007886 3EDB5756B 2F2FA6FCD 26 0D45F89A1 3F9C2C26E 1CBCF809E 3CBE5FCD0 27 3BA85ADF8 282005732 3AD7C0223 2E73D1800 28 07DFE662E 314B74F2F 397BDDC4C 223A8071F 29 39FEADC12 0ECE1CD67 206228FAA 38FCCA606 30 2735FFB20 2AE9B244A 1A5AED974 38FCFD5CB 31 24FF6B7EC 01C682673 19CB14113 2C8CD3C2A 32 015E28584 30B497250 127E9B2E1 2C675E959 33 3CE4B1266 35270B10F 03549C4B3 3B3E6C375 34 34176CD90 2B5E9EAE1 1C95E3C2B 1EF541D4D 35 07A813421 2B39EAADC 33553571C 0F8046CDF 36 168276972 2CF41744F 3CF2512E0 0F8B68ABC 37 03456021F 1982574F3 0BB2B3F49 15A4A1CDE 38 3D3FD677C 33AF2628F 3D217FDCF 30027E85F 39 3BCAF9076 3A7D2FF70 3C541F38B 249BD8A94 40 275F118FA 3A96B346D 0C713CDE5 02F394A28 41 1161DE4F5 0544F9DB7 230847E45 322AF4E17 42 33165C531 268FE9B9B 081A914B4 39100772B 43 275F97006 0A578F2EF 16CEE7EC8 38A5B0084 44 04BBE4F2C 1546C3988 237105A43 339042B36 45 002E32D38 1E85D3125 3F51120D7 00420ED63 46 2B3100F7B 335EDB2E6 1AC8C8EE4 337FF7139 47 046207CE9 0FE1BC312 09BA5B289 39376EF2B 48 3E5849C45 01EEDB390 141D9A024 2DE07E565 49 1A2A88A4C 3F0C9B4DB 266CFBDF9 163420CA5 50 16F795184 3466F1FFA 1F433B456 1DDF13810 51 1C8D17F4F 07C43B7D1 1C8DAD395 28F6C112E 52 16044624E 252AA04B2 11484E85C 07F5024B7 53 2D1A3F4CF 0EEB6DEC1 30CD76F42 20403D1AC 54 0FA2A786B 38273EDF2 228A45016 0309DF52D 55 24DCFDC06 11CF909D6 2FF693F4C 366338F1F 56 17F5D6662 062FCF913 35B211035 21ACE73FB 57 21859E8DA 2F1E3B3D9 1F1014BE2 062A3DEB5 58 00CB49E5F 211B1034A 3A5D2DAF1 21D3F3EB0 59 24C8401BE 217B1F994 1FB9664A8 3D5057708 60 2AD698E2E 3C129D1F6 2C744FF4E 1C1C052F8 61 2AF71324C 2BF41D408 0FC498E18 149A1A407 62 19F4D82A5 342C73FD5 0F5AEEDE7 21A2A8953 63 0A5985778 35AC3032D 35691C85D 2829D55EE 64 10C785EB0 054D4CE18 1BF657A8E 101DC64EF 65 300E8B09C 31A079FB3 0C41DEC5F 216CCFE4D 66 249BDC80F 0316ED79E 1E42B5567 0CFF04A4B 67 359A72B64 186A3999D 065825DDF 2D28E6000 68 370B29C05 12841A9E8 2147E7160 1835345EE 69 0EAADDB27 004EC6DDD 30AA39B8B 2AEB34AD4 70 0832BA87B 3B675151B9 0FD34BC87 1688F83CB 71 16EA2751C 1799D9C42 24055CEC9 226A907D4 72 122A5C67D 3E46230BC 09F475BA9 15B4B6754 73 1C5497CD9 3D405F487 05535D737 06952087B 74 1D276153D 14604EA77 1661FB979 3BAC5E9FB 75 2A620F4C2 0DE484180 2D05E6458 3E6D15A27 76 3A77B1FBE 2B262F810 2BEEA0F46 39706BBA2 77 0DC1EBA02 383C59C77 28C7ED115 06FED31D4 78 3E5C1EBE2 3C65A7691 2394005B6 251B1BB49 79 323E882C5 2DBFF5E13 3638BC43F 38CC5CBB5 80 1E508F19D 0CF345F97 0E5648601 0A0951DF3 81 0B54F4AEF 186A12343 04C4A60C6 27C2CC0E9 82 021B6635A 3764D0696 20942B266 0155C4EDD 83 120DF6F80 0E41F376A 03544C7B2 2D6795EFD 84 07703D649 35221AB50 22141A0D7 268061A59 85 1C4A564C1 26804247A 16A4DB29D 0BEF93C88 86 17049BB43 0D6426761 2BF3A471E 1665820E9 87 29615B890 0A2C5A664 216DA64F4 3D4AA9D2C 88 3A0414B22 0A8BE885E 155C220E4 2D3B17AA6 89 2ACD81CE3 0468D7943 2A4108121 1F2E8E67F 90 2B038BAF7 070660C4E 30953C7B7 3E7375D04 91 03BF7C836 2CBF9FC48 38EAB1C98 11C303993 92 116E0BE61 17BC8C403 31BD1EAA2 1CF87C049 93 172799BB5 3301DB193 2480B569B 34DBEFE9C 94 3EF1F9EF4 189D8C3E0 1941998D3 259838BC9 95 24CF96D66 285347801 22BC70E5E 394231BCC 96 1B38C4A50 04439E0B5 3A7BEB18B 3003A36CD 97 28D47EF33 24CF66B6B 24B716FA9 34ED7F6BB 98 04422E60A 3424BA16C 3FF1B39DD 1A1E658F7 99 0F2DF0912 21BBFA838 32D634EBF 2061148FD 100 2D7EE0544 25D57B7CA 0FADAF20D 19B4F6444 101 1B6AEE253 0BFE02772 24AB19547 186A377A5 102 21BE0200F 00F34B4F5 34FF3261B 1A0E27AED 103 201FBFD73 0592E9D86 053D87C9D 3CAFC7479 104 06C77404E 18AE64252 3963D899A 37179C03C 105 3A561759B 156243DE8 04325D217 33993D0B0 106 17D7A9B74 1F44ABA75 17B572FE3 096008B9B 107 0A4ACCEC8 1F294A30D 19CAEE64E 002787A1B 108 1E0E3C802 1B52D12AA 2F4E003B7 23BA7A6F1 109 1CEC9799E 215D9302B 176BB6639 003D5E371 110 31570792D 2260D7FEF 1AC830374 118FE7C78 111 2D340540B 272E94D06 097C70995 0E70DDADA 112 3FF17764D 0701DFAD3 146BDBB97 229D2D7F0 113 3E9759D5A 00B237425 0B7E646B9 190CB4D16 114 3FD5ADE8A 26B843860 0A2D0AA7B 3C351E07F 115 30FF187B4 112F9D7A1 1AE977517 3760AF555 116 3A86D49BB 057E649D8 2FDE33D7E 31254217C 117 2610F5174 02A7ACB27 208B84FF0 14609CA80 118 014F6D77B 1036B3D2C 294F1999A 33A059187 119 347C62997 1912A710D 2260C531F 2F54BBEBB 120 04484EB82 181977944 1C1CC2693 227ECAB0F 121 0EC048AD8 3B2168495 34FC02DA1 2C0CDEF52 122 2AF502148 3B00632F9 387CDC4BF 3F8B9F716 123 2C6E2557A 3E8A19D6B 3E6756A28 237E6E5BF 124 228F4B540 07532BF5D 101F67F52 29D8598EE 125 0CF3598E8 196A40BD2 00E63B26D 088A0BFCA 126 3E815D747 1588D4E96 073C8D44A 303281AE4 127 34F9ACB6B 384870FF1 257A863DE 34B36BA0F q\blk E F G H 0 23DB99BF9 12114A3F5 25341EDB0 362D37C00 1 3F5F0DDA6 24F99C596 026976120 3B40418C7 2 22D7DA300 1CCEAF135 356CA0CCF 093983370 3 0B603C09E 117AC5C94 2D9DEA5A0 0BDFF0D89 4 0A8659788 1F9708C04 086AF6E64 040B9CD78 5 1CEF639AF 2E1B1D6A9 3E9F78BC1 0FB31275F 6 3718F9AB8 01A986D24 077BDA4EB 1D670A3A6 7 370B33E05 31E57BCBE 030DC5FE1 093FDB77B 8 24EFFC8B1 21C205A90 1E7A58A84 048C453EB 9 38ED51986 286325300 344FC460A 3907B1161 10 0047DE6C2 36742C0C6 2D7ABB967 10D5481DF 11 149143636 3810C6EE1 3A78B3FC6 1B1259333 12 04F25FBC8 2A0A8830C 3646DBE59 2F25F8C30 13 2CAF48FD0 0A42CDD55 19A23CE8F 26318A30F 14 2563F27D9 2D37D5C00 287D18FBB 3ADB44805 15 07577E1A4 1B6A94A74 1D26E5A94 0FD878D5A 16 23DA2E5AB 2D5F25A59 0971AA889 3E78C1846 17 1D9E1F39A 345B96872 301C7894E 2797F032D 18 36E41B3FC 0F6E48C44 36254C517 14493C673 19 242109AF2 24DAF32B6 24B1EDFFE 291CB9D15 20 379B7A6A0 0BAD35616 1285EAE51 37425C7FF 21 21205942C 27AC551E9 0F3F4C262 0505FB522 22 235C454FB 3CE5B67C8 339EADB32 0F9F7DDC1 23 2E281EB3F 00AF8A1ED 2DE24A56F 1332C0793 24 149702D22 024CBB687 34B01FA8B 1E9F5992F 25 21A5252B8 396FFAD9D 05347B60C 2E0ECA200 26 3D2DCF245 14F351A1E 224F5B3FF 2AA6ED34B 27 23DEA3F46 2275280F6 1586270F9 0CEF4287B 28 1F5BE3BB4 093BB1F33 0FCA2D129 21B3526A9 29 0C5EEE08F 1C1BBDD4E 1459E42ED 11FD64ADF 30 20310DB81 1C5FC3E24 19FB3BA17 3785BE865 31 066725853 02CD0A23B 279B54315 0CD571063 32 05F442DEE 394AEF6E2 079E5C840 12703D619 33 1DBEF270E 0042C9737 049522EC6 24961653E 34 26D1450E6 3B9D895AB 1B0C84349 104B6B428 35 2CF6A7F23 0AE3BE8C8 308BFF531 2DBC0F9E3 36 2E609F6AF 04E03AC8C 0F9B66F49 3AFE28736 37 15487D58E 2907C9ABB 15C0D2D73 28D8CFEC3 38 0A463F23B 2F2AE8324 1D1E945E0 2EB355D28 39 287BC4833 141391EB7 05B6443D0 2FEACC5E7 40 3EBB1D18D 1BE7A9FDD 223C53CA1 2BF040F77 41 26944A0B4 3299F1420 1C9405B8E 2DBABD4CE 42 27DBF03E9 3E3A18AB0 13F2D2B83 2CEEE5FF4 43 00DC9A1F5 1B88CFA3D 0D8B0B8EF 29FC4CCF2 44 3A5DEBE2B 1BD09449D 38EFF588B 1CDD3A6C0 45 3384713AF 1D941BD34 2B39EA9CF 05B6D9E94 46 0672D7995 38A54856E 0124753F2 3A3560851 47 33F826C2C 2F6531496 3933B8616 23125B50F 48 1813D12BB 36DB8D404 0E8A272AB 3A66B71AD 49 281ABBE99 34771C295 3AC051848 3C53CB875 50 25F58CF69 1DD6CFE4E 10A236FDF 12AE697ED 51 3A336ADB3 0EB6889AB 2783A6A1F 2CDA40458 52 286E3A67F 2EE6BACE4 277F1F864 22F3CF57D 53 3A72EF9D6 1DAAF2A39 03AB76CE0 0A2856267 54 093BDAEDC 1B11E9300 1DA9C5324 03365EB1E 55 22E641569 0ACA60D55 32D1B009E 035472E09 56 3B4148706 2D0CD106F 2CAB457A4 103E1E49B 57 354C0C786 05A8982D4 35A758943 346EBA72A 58 24B2D1150 1097C3685 2AA3671CE 0E5DC1308 59 05A506088 1314842B9 3C8657064 14B1FA77F 60 18C38A9FE 252168A10 2EB68D098 3A001CBD2 61 0FDC2C4A3 19D00C4A1 0F6B0DD29 268CF8E86 62 15ADB7A94 11DBE038D 0A5B6634A 0FA382B77 63 04A3FBD8C 2C85BFA8E 0F459B864 3E878F0BC 64 0B4E3032A 24ECFD9C2 00C98BE0A 2A1F82444 65 226C5A693 3C31A41DD 3A019974C 23B64EAFC 66 310678543 34D986980 1E3195429 280966E65 67 10964C1E1 1468C970E 34C8B606A 33CC94DB1 68 06DB43F37 33854A725 065E6614C 151E2D7B1 69 2A13D6649 00EC67B83 1176417CE 0E3683151 70 370B52AD5 3A2CD6F3F 3343BF461 37BD48546 71 133C68F80 22CA03BF0 05F723395 2D35008AF 72 11DE75C50 28C17544F 1D85FAB8D 0D5AD9537 73 1C4744AF4 3E0EF881C 3CED3D1BB 1D91157CE 74 089F41406 283154122 2AFDCE892 1FD5E0810 75 0A92FF0B7 2CBF7BF53 25A2F28FA 19A10CE02 76 09257163F 1026D5D74 2E2483EBF 1D6527C1E 77 16F610DC3 000890B82 2FAD16A3A 35C9AD95F 78 1F42BFA23 0E8608C07 24666F55C 11A5214DF 79 1DBF783FB 0499418C7 2285E5A40 1A61D17E7 80 1194EE717 0A6C0B374 03C4E19EC 06F725799 81 3973075A1 392C5EEB7 3933C99B1 005F98CB2 82 3FDBF7497 37356D442 374F3DB06 2718357FE 83 29E8811F1 1B3EFD388 01CA4C48D 2067E8033 84 2D9192B05 3834711FF 3A07258C0 36253B5AA 85 37A3EAB6C 25547B136 3FC935878 250E3BF1C 86 14412A13D 30D5744B0 2ECE5CAE6 01395189C 87 07B98342C 2603F0D76 0574BDFA8 3F9B35D5D 88 3017E1B48 26508C6C8 3FF25EC63 240EFF072 89 3AB446179 33325CA24 3006DD3A5 1A33F3A2C 90 1D6A39944 001BE5C8D 199A89253 0A82087BB 91 3D748807F 1EBD41D17 351085EF2 1C55B94D3 92 2A41CC04D 3883EFEC1 3971BBBE2 190CAE3B7 93 003287827 38DAEA1CB 0B0E25BB4 1972B37E3 94 28E545988 33BFC60D8 3572B10F3 197913B6B 95 077583F4E 0364420AF 278FBF5CB 3850AFC8B 96 329D5A2B6 1BB123AFA 049C2CC94 0F604D1DC 97 186AE44B4 1380D0726 1CC51324E 16BA74F62 98 33457317D 14E822151 3EC02F279 28593D11D 99 09A565B74 2BCE430B7 34DAAD9FA 228ADAFE5 100 3A75DF1C1 0AD3EDD56 0A4D61EEA 28C1262A5 101 03089B4E8 128955F60 3A8DA9AC8 2931648B3 102 0A821AEFB 21B0BA404 1C6A644A4 1734EBB33 103 22F1BA3FA 3DB25DD15 31D468990 22FF2B539 104 0FD2E3D04 191E64DBB 380B841FB 368E1DEAA 105 0CEAC2109 002242D1B 33C1D9F5E 1EC4195D3 106 1F1E00AAE 05489F7A1 17A4C131D 1C018E923 107 03EB3238D 27C10F626 1C9E656A0 3F73609F0 108 3CAA0998A 32E96C916 168EFA1EE 28147EE33 109 12FE4ADB3 3106B64E2 001D9C28E 0F39059DC 110 08F982159 23BB2B13A 2C7944305 376396F3C 111 1DBD644E5 341A72A58 01CBF5334 2C7999AF9 112 03C5DA21D 3A5916EC7 2390AC01D 197D64233 113 2646AA1D4 1A373103D 337E5EFB1 0199DE4A1 114 1B25376AE 05C553CDD 1DBC3F38D 019823A2A 115 004F86368 3700975C2 0518029DE 032427D9B 116 30E05CE12 10BCC1CD7 1889C5139 38A163ECF 117 0F3526318 38EBC7384 287C57BAA 279661A9C 118 26CCE0507 180DF3129 00A6CAE22 2AC0F23A2 119 0A2D90305 1BBEE20E4 0AF79997E 2376F3D0F 120 23F32982B 19E2F290C 1BA2300F8 0EFB06247 121 0553CA222 25DFA4581 29CF66B6B 0AB9C21CD 122 19084CD65 0354918C7 39D1FD9AA 0F5ABDB77 123 24CA57004 1D52401AD 0237F1D80 0FB2B335D 124 0421A0E23 2D89C2AFF 0963D2F3B 24C472A63 125 1C78E9016 03835236C 33071A836 3949DC586 126 095D31EC8 1F10F69DC 200F057D8 1F270128F 127 3FA3D216B 27425041B 0E0DD0BAD 2E95AD35D

Sequence Set 3 for segment 2 (hexadecimal format) q\blk A B C D 0 13F99E8EC 3CF776C2A 3300A482C 0B2BF4791 1 116913829 05188F2A4 2DB0A8D00 2F770FE4A 2 004EE1EC6 18EF4FDD9 26C80900E 1A63FB8A7 3 06D4FF377 2716E8A54 16A1720C8 08750246F 4 3DC4EF347 1F53452FC 01584B5D3 11D96034F 5 05A1B6650 29835ADAD 2F6DDABE4 0976A607B 6 00CC66282 0560BE767 21EBAA7C6 2D8E9ACE3 7 03D08ADC1 2254606FC 3C695D892 1DA9E0280 8 0984647CF 0822BA46B 3EB2BC076 212596F54 9 083CE5726 1F05DA925 169D93EF6 1FCADF3D3 10 27583A466 1CB1634D5 03C7849F7 38C6CED00 11 33BA1AE8F 187F578EE 32473D69A 2458B703B 12 0322609A3 20C4C957C 3FD638746 3FB716D79 13 3529922B1 0ECECBE04 1980B9B9E 38D60363F 14 21FD50527 0EA2F7A31 1E294A159 114734A02 15 2B59354BB 275BF9761 39C6FF332 2004B3902 16 03A8A7A2B 091AE6721 18651FD9E 1F5415ECD 17 06A13CB38 340099B18 2AE6D6385 1669631F9 18 2A88F831B 09D295831 294C468DF 1477F0A13 19 163E1C44D 3F98B6F4A 1805538DD 01EE3DB4A 20 34B0543DC 121B8EA82 00873B4A0 220FE7C05 21 226183AFF 15643DE71 04A4CDECB 2E67FDF8A 22 0F7EAC09D 12BB72B2A 182E44301 2962EB85A 23 31084BEB5 1DC90E345 391736CC1 3C8292AE1 24 229D3ABAC 1044BA05F 0C391B88A 0636A90A6 25 33C85B393 37BFA31B6 134F872F0 0C5EA36E1 26 38E8B9BF6 0A0CE666B 207D98054 23FF360AD 27 263EA8516 36138BD6A 0ED9C55E7 3F0937876 28 1D9AC2E79 051B220E9 3F3B09EC8 0D3F6C366 29 208D85694 22104E7C5 14BCFD3DD 3592DF665 30 36B3A9A2C 3F8E0F162 13ACDCCF2 16951F727 31 2D30FE705 3EC9BFC8D 1B10F8349 34F973F31 32 21D93EB5A 0E49D6211 3C6FCF774 09F44CACF 33 159B1F948 0183E8DCD 3A484866C 21F8DF1A5 34 22EB93A82 15047E272 15428D77B 38FFC612E 35 34529707C 2E84585F4 20DFFB4C5 28288AA00 36 20106354F 22AEB9FD7 3A6BAC67D 3126294C6 37 348F831C5 2E44BF3C2 3D9F6F454 20746A30E 38 202D7F08F 0DBE1C144 132F4EC09 184CD9B93 39 2DDE3FF5F 23932555C 001ED92D7 22FCD3D60 40 1DB9AB8E9 2995EE0A1 1ACFE9892 0D41BCB9D 41 3FFD4DD82 3E69CC1C1 2BC30FB74 3462F70FC 42 16E24E9B6 0A9FCFBD2 3A018544C 1ED8E2855 43 03C9318B8 0C70A7749 0D58708C2 0CA2808C4 44 04DC211E8 1DD20A505 21A50649F 2CA438C04 45 2E84BCF09 226F5D43C 37BE7EB10 07CDC854A 46 2D8DFD565 0A30D633F 33F93B7C6 0B330E9D2 47 17E4777AE 1308F9046 2F7C0483E 1859E0943 48 00D29CC63 0A6D3BDED 1CA44D2AF 388C002CA 49 3E3A6CEC4 122F5E8BE 360B96301 0632CF244 50 238150687 3D96F7F7B 0091E6D18 21802352A 51 306BA76DE 379A88697 3F0DA31E1 0EBF48C71 52 24D946CC1 38DF102DC 3EFE1F5B3 3C316E148 53 0EEAF72D2 3C7248573 1087A7BD6 08EDA9BF6 54 37C6AB63E 2FFC9C790 02CAA37A7 1B34A3F84 55 0848A41C3 1D8150EE7 3D8A8549A 2595F707B 56 16B7A5F7D 1F5AA7998 382300A8B 218916E53 57 3EFB3368D 392AA88AD 29CF3CACD 03F59ED8A 58 1A8B0FB9E 3FBC09C8B 3D7F3E248 034C9BCB5 59 0EBC749B6 33453C7F6 304735F5C 334628143 60 3F9262CBC 0693308C8 21B563415 09BDCC403 61 218AC590E 0FACC734D 02132C9A3 27087557E 62 004F9DC68 25BE3AD9C 2CBD3C07B 3F9DECD71 63 3A04BC376 1D19254F1 00F92DD2B 3C57484F3 64 0F78BA6BC 2DFE0E681 3035BD77D 0A0FFD148 65 1ACCD0F79 22F0AEA4F 32796ADB5 134A4A876 66 3EB6E19EF 1B24EAB88 2E318F810 3F07B618E 67 2BD9E8FED 0AB104122 30C9D81A0 09EA73C7F 68 19CA5678F 28A89AA43 1DB945917 262AF69C3 69 077838B25 2BF7032F8 23DC2E014 028544277 70 39596216C 05A651F63 183A6AE26 0D1FCA203 71 3711AD513 290B237FF 20E2A9B26 0C72A0234 72 1D7786BA4 1CCDF053A 36828B333 0ED27AFB6 73 1053B9CDB 040B97B1D 0D4FF481D 23AD465A8 74 39073122B 35FEAA236 1B38B7A90 2E02AB9F7 75 2C6326A9E 33F7536C1 2A120C75F 37030CAA0 76 38A0F736B 2BD9E9C32 3B989715A 2A646ADF4 77 26897D80C 145B21D3E 143F5E320 30549707E 78 00E931208 2E1E75EAA 374C36E5F 21724DFC5 79 0C3D7268D 0B7A26BF9 1587CE5CD 1D04E1E60 80 1B569F488 08A3F3A46 377F03A18 2DE416045 81 13F709786 02A4E32CB 14C7F849E 09EA16987 82 09B83FDF2 119D60439 278290BFF 2483E6F2C 83 22CAEF0E4 0B2FCDED0 19BA79607 343F81C7B 84 1186F95E3 2F95F4048 3CFBF41E2 1D1E4BE96 85 33437ED6C 12F14DB69 2E70F5611 183752704 86 248457F60 05B9A28A5 0A2A5DD56 16002D9E7 87 1DCE3941A 1D940ACE3 30D331B98 3D5A3BAB6 88 39C0BC811 1B886594E 27AF50C73 2DCEA05E6 89 186A3D233 09E8B95DA 1ED9F3DBE 1B19A74F8 90 02F039B63 2F02D3E75 0F5B5E89E 3D062255C 91 27B5B6EE8 22154E0BD 3FF7729F1 1052B1947 92 27B2D40BC 01EE5E9B6 24B0ACF84 3370F65E0 93 11F581193 07B9B7A7D 1CA56B4A3 3D088CC6C 94 096990784 2960D1672 3BFD7D847 2BC297EEE 95 02CD48DC2 186403849 24C6EE1EA 12ED5268A 96 06B97DD08 2880C9B96 37EB87E03 14C4ED01D 97 116250DF7 1745B4329 11021B7093 1CA549C5A 98 12841B9E9 1F9C4AEEB 1445F0C98 39FFB6307 99 22BD9525E 2030E58C6 25F2CD033 157D93437 100 0FDEC177D 2606157BE 2224E556C 0C6F33897 101 376EF82C2 30E3C582E 0A82DE29A 1B8D454D9 102 1CD4AA9D2 1DD6F4DA5 3485B7150 105DE02F9 103 1F8303786 2C981AAE4 0819F22E9 0A1D88D55 104 1364A15C0 16E9F9961 17E598810 2654E5A2C 105 12E128BEF 19166342E 04A1404B7 283D17B66 106 19F83FDE2 361D25170 36354011B 3FF4EC74B 107 32E0BEF35 11A61714D 34C56D40B 0742C52FE 108 18399ED59 224E6C2FF 3450F1BB7 27A1CA959 109 318D94D05 2EBB53B17 331C3E6F4 0FBCD71ED 110 37AC7E5D5 27C9EADFA 3FC47B5E4 38699BB57 111 0FF4D6F22 3C84242F3 2DEAE40AD 305F320A5 112 31479E580 1B6AD13E0 16A1CF9E2 33A0A119A 113 1CBDAFE39 3E5A30C1C 236E9A029 063430D97 114 10B393370 33CB79316 2CEB44FC0 236019420 115 25463FC5F 082FC0ED2 038ACE1CC 3E959B49D 116 167B32C3E 06FF88387 34C3F468B 3239005B2 117 221BD0503 0AF619499 21F8D40C1 1B3DA7AEE 118 1D79A57C5 315D2460F 1402B8222 28DC66FEA 119 062B39CFB 310E8818D 0F2D0A235 3F6468866 120 2FCDEA0E0 1BDD766A4 2827B99BB 0B5F04CC9 121 3CD46CD9D 311A64A85 24DDFE6FF 341106FE5 122 2762D6A40 306FE3843 1402589C8 382B07654 123 1C593A744 1562487F6 0C38617B4 2CA68266A 124 35B8C7503 278F57EAA 34A804061 19C657A74 125 34994C46C 1C6B99499 1AF24D850 11AD795D3 126 22D7095A4 34B70502A 3F0CB27D2 04FC214E6 127 21C33416F 18B894695 3AC062614 3537CF601 q\blk E F G H 0 17BECDFE8 35998C6D4 05F8CB75C 259B90F0B 1 185BE5E33 0F039A076 212F3F82C 116635F29 2 1DAA917D4 0E6716114 02690646D 0CC94AD36 3 393045CCB 1DBCCDE43 114A0CAD6 181690377 4 1FA62568E 11974FACA 191BE154D 397C9D440 5 11BA92926 2456B1943 3E3FD608B 095E7584B 6 198A9E285 05F3E73DD 13DA751A2 176B75E43 7 2CD4FF589 19B78A5A4 0CE67A7C6 12535A61C 8 11CC2E64E 120BADF9F 0DA72CEDE 30D0E106F 9 08A5CF0BC 317C8508F 19BDCCFE7 0FACE3631 10 1161C173A 15A645D3E 281A7ED92 076ADA797 11 267E59071 0F317883B 3E7DEDBF1 3B9859BA7 12 36BD0CF1C 333B11B8F 0027ED1F2 3E7471BF3 13 18904BCED 108E3E5F1 34B95C446 338F51DAC 14 120B90BF3 3F3617C92 0129071E2 106640936 15 053F9DCB0 19D79A902 2B3125038 20649B43E 16 1B38EA62E 07FB0F422 3EB58896B 077FE4C7C 17 28E51A676 19A023391 261855F39 3E518F0BC 18 37725C6EB 00E7DB222 27D610157 349A8FAB6 19 22AA1797E 27568753E 16090F219 2C9838C01 20 2EDBEAE34 1104BDB93 0711E8C0E 0E1C107BD 21 26D2A6D40 25E7695F1 1A99778F5 20FE0C1A3 22 3477C1B69 3E3CF56F7 29C9D00C6 39788600C 23 38A0D515C 3977012F6 25D1F6055 36A7D3F8B 24 0B14322AB 21ADC33E4 2DC1A3BFE 0D7FF6D1F 25 286956ED1 1632092FA 382B4BB10 23DC3EF14 26 121BFDA4E 347D442FD 242922C07 23C6E4115 27 03232BC24 18E5FFF26 3530CF206 3981B7414 28 0201A7CB9 3D5477092 22185FF9F 1C5AA5348 29 1F4EC3265 24358076A 2D20A8000 017F2D489 30 271E73555 1B3EDCDE7 162B45352 1CAFA635A 31 1CA96A349 1A28B4543 1C5367CE6 2DFAB0AE7 32 2D8CD2BEA 037DDAD3D 3BBD06D1D 39CBB996F 33 219A58193 2D1B3C399 2275F19BA 0EFF4C612 34 20609BE54 3226C8254 3E5568DB2 159284EED 35 10EFC1E07 3C4D211FC 379087C3F 25716A7DD 36 0FBC874AC 2DFE5675A 391B1DDAA 06BAA74D8 37 08D183029 35C6BFEA7 2729B552B 263BB2EBD 38 2596F5884 2A55B8217 2BEAE02D8 235A19A43 39 2C0737593 0B27E62FF 0693CFBDC 284D5B33F 40 2E3806507 25CCD5D60 3536DF04C 0BB0A5E3B 41 164FAE762 09B83F8AD 1DF593F3C 2DB478034 42 0037681E4 05950E1F8 1107DA097 377A25C65 43 219E02554 39315B2F2 2E089B00F 302E135C7 44 39CAD66AE 2E1BD969F 002748760 069924211 45 06FB50D48 08966435B 01BA5E5D2 1D34057FA 46 0E659B262 130669024 19A9D5F64 38059132D 47 0982C9101 05453D92C 001F53877 388A571AB 48 2A3D70EF7 2DD3F5A6F 39FEAF0B6 11DFE385F 49 2E8985A9F 0FD256C87 0449C29D4 26B713C90 50 02F7A466E 0A5BB6648 350DA85DB 1C97F4544 51 27F8A46EB 3F75A19F6 277002F97 275B43715 52 2735B20CF 0688E430F 0316DC923 24919BEA1 53 2B5D97BF4 26733DC60 1190D275B 2EC7ABD30 54 0022CD5F6 3ECF891BF 193D545E2 0172C674E 55 00640B276 2D44EBDAE 1CAF37453 377EF590A 56 19D00E728 1EDA11790 0BBDEF9C4 1DEB15796 57 1042098CA 1721B8F3A 2B5DE9312 0CB5E6F23 58 1BDD89300 3392476C0 0C10AED4B 23BECA42A 59 1DAF6E7A9 11BB9C393 226C5E4FF 170372039 60 0112C79D4 2DA9F1134 36AA1CD7D 3A1608BFC 61 076B3ECE7 2EA16BA3D 0E1D452F1 3F70B027A 62 3E771E15A 11FF2F24D 2AEA5DF67 1E838955D 63 181D0973E 319F9CEEA 053ADEEDB 1A3C22150 64 275F50C66 2246E9053 27B2BF3E9 1741894F8 65 183D989E3 204C4BF97 22300E86F 3F18744A3 66 26B4C0C87 31CC10EA8 169E1B650 017DF88ED 67 141357B1D 000A7DB48 1DD06FD41 0AFA8EF72 68 3145A4473 3742CBFF5 1BCD965E9 1B0E7FC84 69 37B411B5F 392FF6CDC 1D66F2BE9 011372DA0 70 0FF6F0D22 2FEB8364B 05A438ED8 32D045F13 71 2F1ABBE93 19B505378 354ED915D 0C359F272 72 241326FC4 1A9C37F8B 0A9C3C372 05937E898 73 2906EBDE2 0C4F6C09D 2189C5FEA 2D90D305A 74 219FEEA0A 36B3B2EF8 39A3F4C8B 15A42C9DD 75 3A011882C 098C8504E 3B92D756B 175811CF9 76 2D02FE38C 11AC7E9E6 3F5464862 0F382B0D8 77 28126710C 122CA92BE 3AF47270C 0B544128F 78 1DFCD2028 1B3FF774E 3A826A68B 1781CDCA4 79 36240C07D 1AC403449 0417F9622 02B9F8BED 80 1ED96E381 33F4F16DC 2C8DAAE4F 33E384AC7 81 06C849EA4 219E4B995 243CB7F07 253513BC6 82 0EDEC175D 242A669C1 3EB639EF0 31EBB4CA0 83 289AA213E 358AC9FFA 23956ADA1 00BC725E7 84 26B38BA65 2F715E590 2235C0029 2C89AF93F 85 142BC8B34 3B90ECD86 1C11EB493 1022D4782 86 34C87FB16 2E32BAE0C 21065BD64 1CCE92BB0 87 119791607 10FB0D788 2C78E9015 100B598E4 88 0805EDCA9 3A5989B08 18AD24255 1683B7CF2 89 356CA7443 316C9FBE9 3F8A3162A 3A0BC11CC 90 222C6AA4E 25DEA06FB 39488C071 139318BFB 91 3D477BF2B 3EDB6745A 1B30CF849 030F84AF4 92 067D8DFA9 1C01B9327 26FF8FDB5 3809C0CA6 93 11D52C38A 344760F0A 3D3AA336D 0118CBD93 94 32168CF28 3912FFF6C 08ED9BAB1 34452C6E5 95 2718C00E9 27E8F18CF 145913E2D 0B090098B 96 17041E5DC 347A412CB 088CE591B 0BE926B22 97 25244AB6C 374E0F19B 274F76015 0FB738F16 98 02AB688E7 0FD8B499E 28D533072 138F162EA 99 1442E92D2 3D6EE9DF3 3CA5B469D 0588A0FAE 100 0F830DE1B 3C3F9C1D8 2AF576923 0D4173E27 101 079ACE6D9 2579984C6 392F28400 24CEAEDF1 102 22168E0FA 24F48AA6C 003771A39 306890843 103 3B4C012FD 0214CDF52 19DF3BE8F 02364E19A 104 09B43C7C8 3A5E2AF45 14FC71E26 2B4BA69F4 105 014836F64 13BE0B4B5 2F8583C08 2B19A7FB4 106 1B2128FF9 0C849EB1B 096B991D8 1CA7A74AA 107 00ED2F1C4 3997FC7B7 06E414374 180DCD64F 108 21B5E00F8 13B67DAE8 0B14C022E 0E41BBEE2 109 380FF18B8 3E3C75B26 0E0088A18 17553D2A2 110 1564F8B27 3579C7FEB 13401BD88 0DB519DE0 111 244CB97B0 0892DA905 3F09D5CB5 332E7DB02 112 1AC8388E9 3D4105F37 226501835 27AF1310F 113 0CD91A825 02F335D7E 1989FE0BE 13C4E2A20 114 248F95ACB 35034B6F0 365691771 34A8FBCB6 115 21B8C04F5 08633F3A0 3A5D18159 12B3EC4C7 116 121C913AF 21C90CE16 28B54D557 3811CB0A9 117 3FA2E3B05 348466C50 10F12A28D 0E70B26AB 118 1BCF748F9 2AD5D4227 0094D2CAD 25EA22A58 119 33F86F342 39CAB5BBC 2E7D6A8BF 3E9218162 120 1C9E02A9A 1A6675ED4 033497A06 07D4ADD44 121 0D0613CDA 0E9276056 178ACC4F8 23DEA3CB0 122 160BA3DEA 3815B54C8 273960105 2076A15E5 123 071C4BF93 2593F0BDC 1562436E5 199BEEA49 124 385734710 3FAC27628 0707BED4E 32F20F45E 125 19288BFE9 1360C1B96 3B5D8DBC0 2554E72D6 126 24C0B80C5 03D6F4DC8 1432A099E 26300D70E 127 00A20A8B8 1CD10BAF5 394DF1DC0 0925851ED

where blk denotes a subblock.
 2. The method according to claim 1, wherein the first or second sequence is a Secondary Advanced Preamble (SA-Preamble) sequence.
 3. The method according to claim 2, wherein the modulation sequence is located on subcarriers given by the following equation, ${SAPreambleCarrierSet}_{n} = {n + {3 \cdot k} + {40 \cdot \frac{N_{SAP}}{144}} + \left\lfloor \frac{2 \cdot k}{N_{SAP}} \right\rfloor}$ where n denotes an index of an SA-Preamble carrier set, indicating a segment Identifier (ID) ranging from 0 to 2, N_(SAP) denotes 144, 288 or 576, and k is an integer ranging from 0 to N_(SAP)−1.
 4. The method according to claim 3, wherein the first or second sequence indicates information about a cell ID, IDcell according to the following equation, IDcell=256×n+Idx where n is an index of an SA-Preamble carrier set, indicating a segment ID ranging from 0 to 2, and Idx is an integer ranging from 0 to
 255. 5. The method according to claim 1, wherein the modulation sequence is transmitted through a plurality of antennas of the transmitter, the modulation sequence being interleaved across the plurality of antennas on a subblock basis.
 6. A method for detecting a sequence at a receiver in a wireless communication system, the method comprising: receiving a modulation sequence via an Orthogonal Frequency Division Multiple Access (OFDMA) symbol from a transmitter, wherein the modulation sequence is obtained from subblocks of a first sequence or a second sequence, and the second sequence is obtained from repetition of the first sequence in a same order, wherein the modulation sequence is obtained by converting element X_(i) ^((q)) of each subblock into two Quadrature Phase Shift Keying (QPSK) symbols v_(2i) ^((q)) and v_(2i+1) ^((q)) by using the following equation: $v_{2i}^{(q)} = {\exp\left( {j\frac{\pi}{2}\left( {{2 \cdot b_{i,0}^{(q)}} + b_{i,1}^{(q)}} \right)} \right)}$ $v_{{2i} + 1}^{(q)} = {\exp\left( {j\frac{\pi}{2}\left( {{2 \cdot b_{i,2}^{(q)}} + b_{i,3}^{(q)}} \right)} \right)}$ where X_(i) ^((q))=2³·b_(i,0) ^((q))+2²·b_(i,1) ^((q))+2¹·b_(i,2) ^((q))+2⁰·b_(i,3) ⁽¹⁾, i is an integer from 0 to 8, and q is a sequence index, wherein the modulation sequence is mapped to a plurality of subcarriers in the OFDMA symbol, and wherein the first sequence is one of the sequences in Sequence Set 1, Sequence Set 2, and Sequence Set 3, given as follows: Sequence Set 1 for segment 0 (hexadecimal format) q\blk A B C D E F G H 0 314C8648F 18BC23543 06361E654 27C552A2D 3A7C69A77 011B29374 277D31A46 14B032757 1 281E84559 1A0CDDF7E 2473A5D5B 2C6439AB8 1CA9304C1 0AC3BECD0 34122C7F5 25362F596 2 00538AC77 38F9CBBC6 04DBCCB40 33CDC6E42 181114BE4 0766079FA 2DD2F5450 13E0508B2 3 3BE4056D1 2C7953467 0E5F0DE66 03C9B2E7D 1857FD2E3 15A276D4F 210F282AF 27CE61310 4 3DBAAE31E 254AE8A85 168B63A64 05FDF74FB 3948B6856 33656C528 1799C9BA1 004E0B673 5 177CE8FBC 21CEE7F09 397CD6551 01D4A1A10 1730F9049 067D89EA9 3AC141077 3D7AD6888 6 3B78215A1 17F921D66 385006FDC 011432C9D 24ED16EA6 0A54922F1 02067E65D 0FEC2128D 7 01FF4E172 2A704C742 3A58705E1 3F3F66CD2 07CA4C462 1854C8AA3 03F576092 06A989824 8 1A5B7278E 1630D0D82 3001EF613 34CCF51A1 2120C250A 06893FA2D 156073692 07178CFA7 9 032E31906 2DD318EAA 1DE55B14D 0EF4B6FB3 27DED0610 1BC8440D3 0ED86BF8D 14FAFDE2C 10 174725FFD 0D2FB1732 124470F56 292D9912B 1571408A7 227197AE9 2430BC576 0B67304E0 11 1F1DCD669 293DD1701 0C34F1B84 28496EE51 3DC41327F 071C06523 28E1657B6 02588EFDA 12 22E4AA041 3810362F1 1955F1DE7 0D6D2F8BE 11F31358E 3EB27BB12 1F4E60111 119BDA927 13 14300B522 152E6D482 168DF6E43 0740B7AE0 14FE7DCDD 0FA092626 23697615A 1F1331EB8 14 12C65ED00 317643CD7 2C637A415 15E3E5185 0F5CBB9E0 23290B156 26F37EFE8 1AA174793 15 1DD6453F0 032C4BD39 082659BD5 320C5E691 224E555B2 3A9615A8D 1BED03424 28E6A9CED 16 068AE7EE9 16F724910 3803DD9BD 2A31A2FFB 010BF5237 33CB067E6 0280C28B7 184417B94 17 1D651280A 2C7BCF443 17324EFB0 236E5C411 381215183 2F076E64E 0A6F2EE74 3DA4196B7 18 27341650F 1B520099C 09AC91114 000A5F48B 30AB4B9B6 2D0DB0DE6 1CF57978A 2D424406B 19 3A01E2FB2 0DF5B257B 019D1C63A 0EA7DCDDB 242D96605 2DA675F15 1DEC54193 3B6341C16 20 2DDFAEB05 21D0A1700 0FA09BB78 17DA7F8BB 06E883B3F 02E6B929B 2C1C413B4 030E46DD1 21 1B625E3F9 0F708F756 00CD97B18 3F036B4DF 2CF08C3E5 213A5A681 14A298D91 3D2ED63BC 22 2DA48D5A9 0C085BD17 01903428A 3DF2A30D9 29061309A 16F7DC40E 2AF88A583 27C1DA5E9 23 30DBAC784 20C3B4C56 0F1538CB7 0DDE7E1BE 2C312903B 0FF21E6C2 032C15DE3 26C9A6BA4 24 3188E8100 385FEFE2D 3967B56C7 3F62D246B 1826A755E 2CDA895EA 2FAB77825 1B525FF88 25 339467175 2DE49506B 27B7282A9 0254470A3 3374310AF 2DF20FD64 3848A6806 11C183E49 26 02AFA38DC 0F2AFDDF4 1A05650E2 061439F88 11C275BE0 30C41DEC9 119E070E9 1E76542C1 27 1B364E155 086FF808C 29F1BA9DC 0A830C788 2E70D0B3A 34EA776B1 3D13615C0 15FC708D4 28 38ECFC198 07034E9B3 2340F86B3 07562464C 22823E455 1F68D29E9 257BB66C6 1083992F1 29 375C4F5AB 3C0F5A212 0EA21BC30 13E8A26F2 17C039773 283AD6662 1F63AB833 2DE933CAF 30 2B773E3C5 3849BBE6C 1CAD2E5AB 0405FA1DE 1B27B4269 3B3BF258F 300E77286 39599C4B1 31 1E878F0BE 0AE5267EC 376F42154 1CD517CC2 302781C47 123FEC7E0 16664D3D8 24B871A55 32 20E200C0A 1C94D2FF1 213F8F01B 369A536E0 161588399 29389C7FC 259855CAC 06025DCE2 33 28D2E001C 3C51C3727 106F37D0E 1FB0EFDD1 2CD9D33C3 1EA190527 0BB5A6F9E 074867D50 34 08EFC44B5 1B484EABE 05FEB2DE2 211AF91B5 0CF52B1E1 002B5C978 11D6E5138 0D402BDD2 35 337C618F4 0A4C31DDA 1D93003D6 006D7D088 348043A6D 325E05758 2C53EEEB8 15ED8E614 36 38375C2FF 18C78FD02 30C11EF53 3916581DD 1B75263FF 2D8DFD6A9 00C4E8482 1D201F96A 37 2E10B0D05 2EF203893 2491D95F1 34D995B51 32214BDF5 3E45674B1 3E74AC66E 1B813A999 38 153E7269D 2391C7BFC 1ADD3A595 0EFD3086E 00AD88A8E 0D8B007CA 0F22C5F9D 010E86385 39 3B58C7BFF 0BA76496E 3AD0B7BBF 1D6D10FB3 3A607BEFC 28F122A95 057950727 179449CB7 40 37AC5194A 390BD9C00 3A48C0461 12FBCE4C6 2A8DD4171 10E9F1E34 251F5D167 1124E96B1 41 0FEF20C67 31EC9EA3F 275B31143 22DA4F02B 352C0F648 21FF5B9F3 3E5BC2372 0A1AE08FE 42 080EDC49B 17AD7F7BA 390775B3C 1380B00DA 2477FF17C 2E6D9E5AF 05381F2DD 26143CC17 43 2DB485795 1B3252799 39AD0211C 3AAE31B76 30532A187 1C8EA5F5A 2EA6E4D6B 30570A2E4 44 11BB4F78A 12CCE1428 2C67EEF99 20E3F841A 20CFCD5F2 1618A7B94 111FF6092 2ED034E06 45 1C66335E5 0CA9B9BD2 3213028AE 15542DD28 290F7DAE2 2137F02D5 17DF9445D 24F162FFB 46 360FB966B 17D878955 1C1D67093 065B84F3A 1A1D955E3 24C73C11E 270EA9EB2 114DCA02C 47 002CE84DD 0616DD253 3EB188345 1FF852926 37E160F00 040DF51EC 1857A33BA 230FD8A0D 48 233C0A71F 22E428104 0325F8170 39566B188 32DA16A4A 039FDF1DC 27A3E946C 0D69F26D9 49 0583F9F73 378380CB6 059D8A960 3E3442C7F 026138ADB 25F370F1E 09D3EB2CC 2D37D50C0 50 08DF9CC66 2C2E7AA8F 3CB241ED2 03216B4D2 39736B451 25F6F113F 08FD2AC3C 1974574FD 51 3D1FF6041 2CE2AB97F 01A734F3B 1DCF9F3C5 268D595CA 1FBD2A8B8 0F1449F86 370C352FD 52 123218E40 3AA057589 20F73A16F 26E3BCA5F 3A7330DC6 12C659384 39D99FF1B 276DFC540 53 185AEDEA4 0418B3643 382F7700A 3FC35ED60 07BA2F838 1BC840C93 2469A41EC 0CE7B4CB0 54 2E194E2BF 3302A0B28 1836001EE 154A4738A 36A3BBD72 23CCD0EB1 044B3A13B 2B50C8057 55 0B76405D3 231AAA728 0EE05E9B6 0093A21F2 2065A01D0 1F2B810D4 1082F3A73 1DAFEA492 56 07AD23A3A 2091957F1 3B9D8CBF0 21E4160BE 1BFB25224 3D9085D16 03076DD39 1DBCF8D03 57 226D70EBF 3ED15246C 364130C46 22F6D4AA3 3FCC9A71B 3B9283111 0484F0E58 14574BD47 58 3F49B0987 305231FA6 0CF4F6788 3B9296AED 2346190C5 3365711F4 078900D4A 352686E95 59 1D62AC9A4 104EDD1F5 1B0E77300 1CED8E7F0 388E8002C 1FE6199F4 02239CB15 1FE5D49A2 60 21314C269 28600D12A 22E4F1BAA 044E211B1 0DECFE1B4 3E5B208CC 1CFC91293 21E7A906B 61 02C029E33 1BA88BE4D 3742AE82F 21EF0810F 17D23F465 240446FB5 17CCE51D9 2C0B0E252 62 16F9D2976 10185ECE6 2821673FD 02674271C 3A8A75B7C 226D4BF0F 2216004E5 0E8605674 63 06E4CB337 32A31755D 062BE7F99 1417A922D 2271C07E5 24D6111FA 3F2639C75 0CE2BB3A0 64 18D139446 2426B2EA8 352F18410 1133C535E 10CC1A28F 1A8B54749 22A54A6F4 2F1920F40 65 22443017D 2265A18F5 14E1DAE70 11AC6EA79 31A740502 3B14311E7 3AA31686D 26A3A961C 66 2018F4CA9 3A0129A26 39BDA332E 1941B7B49 03BBCE0D8 20E65BD62 2E4A6EE6C 3B095CCB3 67 0CC97E07D 11371E5FF 31DFF2F50 17D46E889 352B75BEA 1F1529893 21E6F4950 1BD034D98 68 275B00B72 125F0FE20 0FB6DE016 0C2E8C780 3026E5719 119910F5F 3B647515B 1D49FED6F 69 250616E04 0882F53BF 11518A028 3E9C4149D 09F72A7FB 0CC6F4F74 2838C3FD1 08E87689B 70 212957CC2 03DD3475B 044836A0B 2463B52C0 0342FB4B0 34AD95E9B 2936E2045 3B0592D99 71 2922BD856 22E06C30C 390070AED 09D6DC54F 3485FA515 064D60376 07E8288B3 3DD3141BF 72 29CB07995 007EE4B8B 16E787603 07C219E93 1031B93DD 23DEFF60B 30F1D7F67 0EFE02882 73 11F3A0A2F 38C598A57 3FE72D35B 1F655E0D1 0B3AC0D92 3430DDB1A 3BAADBF42 02D6124C0 74 05FC8085D 345A5C470 07DAAE1E9 0D7150B88 25D2A5B10 16F8E5021 3240EFC71 0F0F5922D 75 399F32F6E 2EEB17A8E 0D61665D0 2138EE96F 3F8119063 01B5048F7 27075153D 265DF8280 76 3962CC581 2337D2983 286FD7BBA 185126E0E 1F95AD927 0F7EBC374 1E3A4B6FF 20CA9B9BD 77 1C85C13AF 290C37167 1FDD26E8F 0C38736B8 0174DB972 0A921E3CC 097557C9D 09452C1E6 78 2D48D6C00 2D9BC8DFE 10FF1E128 25C96BA85 0FB071B8E 0F09B3C9C 1A3E11441 38EDDA03D 79 396B88B2F 0029F4BDB 30D098CAD 0D54D12CB 1D0823F55 2DC53B9AA 11BCF7438 33F6EC091 80 21E03CD65 1A2FE5B92 2851F8445 0251E386C 1468950D8 1A8B39748 001B42236 26CD82DA5 81 2CEA1E6BB 006C97E74 00C2B887D 23461AF95 0E9CB2BD2 0B0EA3022 1FB56A7A3 25A7FA625 82 208FC2A1F 381C5733A 03F11D7E3 07ED6A7B7 1FEC85E09 3D61E0440 356F4B1C3 3756E5042 83 2061E47F0 22EAA0AD3 24796BB65 03C59B4D8 32A75E105 22155381B 23E5F041C 155D2D7F9 84 381AFFB73 212B5E400 1F1FE108E 04BF2C90D 3C1A949D9 2854A9B45 001B09322 3A9372CC1 85 058B23433 0904C6684 158CADB9E 11BA4B978 1854368F4 1919ECEA7 147F1FD34 2E228AA3C 86 34857F3DB 2CB44F7BF 111A065D3 1BEAB392E 27F081ED8 3E67D1186 0F6265AC5 27716FAF9 87 38EBB8BF1 32ED6E78F 2B0BA4966 2188282AA 00D49B758 1765BA752 2B50AFDCC 068C82450 88 234F0B406 02FB239CD 15AD61139 2250A5A05 1CD8117E0 0D849163F 268C7A5A6 22A802020 89 2D0FE8D16 0C14E3771 07DE5320C 0640C2762 1CBD9FF4E 37A91986D 2024DA401 164D4A84C 90 3225B4D60 3013B75F2 2A77AE5C5 2C25377EE 03C8DF835 346E80FCB 116B79FA5 356D2B604 91 0D55231FD 247907F31 0CFA0B049 36D069A95 10D4CDE71 1A32544D7 38336885F 173ECC08D 92 207420EAC 26FCFE182 3FE7B31C6 15B320E13 187AA34A8 1B52253BF 1FA16669D 3725A81A5 93 3C9C7404A 092B77FEB 3B9865B46 349456F61 39B7C6A66 3075EC990 01BE637DF 330897B17 94 1CA4C048D 2B4D50621 2BF917627 3EA2CC5E1 33EC0A1E3 05FE0F747 349553D72 396077301 95 04CEC1C82 1F828DD00 30122C790 1AD8A7895 1CE0912C0 298382F37 2D4D33F06 001364B36 96 37F8BB035 2F0897994 333F5F096 0F28AB363 20036829F 338017E2D 3A5A05D76 0CC02E5E0 97 02FD351E6 03E316288 2FCAEB4F8 1C5A80CE3 3D3AC3FDD 3E456746D 119A5381F 1581C894E 98 1623B3D0F 103224DB0 0FB936BC8 2EED7F082 26C91513A 2F12E4C31 290F3AEF2 392CBFF67 99 02F75DE8F 2E61A834D 02A692866 1F21044A3 2D7881A95 18651EE05 11FE3D308 39EED56DA 100 3A858659E 2F7A87BE0 135FD561D 27B3B651A 05E131CB9 0D5865123 2CD6991E5 3EE6DF705 101 3F3B247E1 32D02B245 16B98A593 1E4CCFF18 0C4A9D285 06D519FE2 023A336CD 1B20E999E 102 3A9E8B49B 239656AD1 3396D1C51 06F4DCF40 15D819D3F 2A3061144 20BD2A33E 2FFB139CD 103 38622F3AF 24BF9BB7F 1D2729010 15877B93A 00376B0E7 0FF064887 3505CFD9B 354C366B6 104 2A0AB7033 1AFA65DE1 1198D0AD6 38E80C86A 27693D541 3BB26F3D4 39154881C 0E7DD6B6B 105 1B0DE4333 27FE0F6D1 0F00B2888 0BDA322FF 2759B5A4F 0543A2D27 0C36DD1E5 04E9A262D 106 1C7E636BF 000E9C271 2B44F4F30 28255BF77 1CC4D69CE 03F4C57B2 3E926D59B 00AA39BDB 107 1FDE98AE0 0CD076B07 171124FB5 33F098288 1E0B3043E 39731D117 3E7ABC2C8 19CC50279 108 28EE855ED 2A704C371 03288F4B0 3C83E26C2 0A905148B 18C66BB94 1BCC32537 10D71AB44 109 26238A065 0FBD7BCDD 02507CF76 059F69484 3FE0D6F77 2466A50DB 3C07A75B2 2DC0F099E 110 3CDCD6CBE 1446783DA 1626C83F9 2FD4C4DF3 13A59A2D1 2C903D2A3 0FD37F076 0B1039EDD 111 043B07DD7 28D9C2155 2CCEF57A8 34254C1B7 09B933B2F 1FA410127 10BD5E9E6 010EC6389 112 345E8FCAC 226BD7EFA 27341A51C 23854F031 04C297212 044DED8E8 319B3BFB8 37DBBBF57 113 16FBEFA72 1B5EF9484 2DEE7A5BF 097695C12 08AEAD5E8 3DA7C1327 2B81F3E2D 31AFBED32 114 3484086B1 2DFA56B9E 226E8AFE5 285F45484 3E69AC8E1 1CB33645F 2DE53BC30 2F6ED567E 115 1117B5E7D 122A4D471 1AC936544 267010D71 10428CA47 24B72A000 2E27FE185 1E62C1403 116 0B3161E37 038C3DC98 100793647 1A95D8D36 399668787 06C0D4922 25F48AA58 2DFFF1789 117 04FEF7231 381910B63 298783078 30CE5EC1C 29F6F299D 3C34CA770 37BAAB139 3D2069B65 118 18F644052 2051880EC 23ADBF949 04237280A 18304E663 287364EFF 314698D78 149A21E51 119 39E14BBCB 1DBDA9EF4 3ECCAD8D3 1BA3EF99D 26D85CEBF 270547292 0FB3C7826 0131E73D6 120 2DD6F3F93 0FC282088 14A143DDD 0AB840813 0B973037C 29535C9AB 0DF8DA2AC 271CBC095 121 1C1D063F9 3F4EF6DCC 00128D932 145E31F97 0B21590D1 38F1602D8 3AC2EBB74 2320957C5 122 3383C846F 12128F29B 19985CE7D 2834CBBF2 1E1513B3D 364DB5800 33EE3F46C 01A865277 123 0129D260B 238A85BA0 2D81AA924 3917048B6 36F857692 1D2F813C3 0505FB48B 3DC438BC5 124 05E0F8BDC 3D978C1F1 266F83FCA 0E89D715A 01821DEA4 12D9AE517 22F8EAC2C 3C098DA58 125 1575D1CE9 26F291851 3A7BB6D2C 12CC21A3A 2975589B0 39CF607FF 388ABF183 3D3BAAB0B 126 101E5EC7A 0B75BCF3B 13ED25A86 35FC032B6 2F6209FF0 13C7B2041 1F2791466 3A759A6C2 127 1EF89091A 11A653D2C 223FC1F42 2F7B97B31 2CA4EE011 00F68767D 10FE34682 018339212

Sequence Set 2 for segment 1 (hexadecimal format) q\blk A B C D E F G H 0 20A601017 10D0A84DE 0A8C74995 07B9C4C42 23DB99BF9 12114A3F5 25341EDB0 362D37C00 1 1364F32EC 0C4648173 08C12DA0C 19BD8D33A 3F5F0DDA6 24F99C596 026976120 3B40418C7 2 1C6548078 0A0D98F3C 0AC496588 38CBF2572 22D7DA300 1CCEAF135 356CA0CCF 093983370 3 03A8E3621 2D2042AF5 2AB5CC93B 05A0B2E2E 0B603C09E 117AC5C94 2D9DEA5A0 0BDFF0D89 4 07C4F8A63 3E6F78118 32CCD25F2 1792A7B61 0A8659788 1F9708C04 086AF6E64 040B9CD78 5 2D7EE485A 2C3347A25 3B98E86AF 242706DC3 1CEF639AF 2E1B0D6A9 3E9F78BC1 0FB31275F 6 0307936D0 21CE15F03 392655B2D 17BE2DE53 3718F9AB8 01A986D24 077BDA4EB 1D670A3A6 7 05A10F7B7 31900ACE0 28DCA8010 2D927ABE5 370B33E05 31E57BCBE 030DC5FE1 093FDB77B 8 092C4FED1 268BF6E42 24576811F 09F2DAA7F 24EFFC8B1 21C205A90 1E7A58A84 048C453EB 9 29F162A99 1F739A8BF 09F684599 1BEC37264 38ED51986 286325300 344FC460A 3907B1161 10 0E4616304 0FABDCD08 0F6D6BE23 1B0E7FEDD 0047DE6C2 36742C0C6 2D7ABB967 10D5481DF 11 32DD51790 237D6ACFA 2F691197A 16724EA58 149143636 3810C6EE1 3A78B3FC6 1B1259333 12 1BB0FD4D3 235F10A55 1C7302A27 1148B18E5 04F25FBC8 2A0A8830C 3646DBE59 2F25F8C30 13 0FB38C45B 069DF29E9 00F93771B 3AA35746D 2CAF48FD0 0A42CDD55 19A23CE8F 26318A30F 14 365FBEDAC 27710945F 2AA367D61 05A484318 2563F27D9 2D37D5C00 287D18FBB 3ADB44805 15 3038BC77D 2A45D29EC 156173792 03EC7679E 07577E1A4 1B6A94A74 1D26E5A94 0FD878D5A 16 1F22158E4 3F02A1D37 2767EC03F 1C8CD535A 23DA2E5AB 2D5F25A59 0971AA889 3E78C1846 17 16521E709 12C2DB8FE 3A596C221 1562D5C27 1D9E1F39A 345B96872 301C7894E 2797F032D 18 2EC951A24 1ED768F3F 11217930A 39DB44855 36E41B3FC 0F6E48C44 36254C517 14493C673 19 3EA159E72 24ADE96FE 3458C73A6 30674E1FB 242109AF2 24DAF32B6 24B1EDFFE 291CB9D15 20 2AD0E6696 04F4077D9 1BB279A53 38957605B 379B7A6A0 0BAD35616 1285EAE51 37425C7FF 21 083637980 34F2ED66F 282846A88 19D5E40A6 21205942C 27AC551E9 0F3F4C262 0505FB522 22 3E7D64856 1DB0E599E 159120A4B 1FC788139 235C454FB 3CE5B67C8 339EADB32 0F9F7DDC1 23 3956371B8 1D67BE6E5 1EFCF7D53 041A5C363 2E281EB3F 00AF8A1ED 2DE24A56F 1332C0793 24 0818C47A9 1F945634B 1C5ED3403 1043B5BF4 149702D22 024CBB687 34B01FA8B 1E9F5992F 25 3A6618167 3A0007886 3EDB5756B 2F2FA6FCD 21A5252B8 396FFAD9D 05347B60C 2E0ECA200 26 0D45F89A1 3F9C2C26E 1CBCF809E 3CBE5FCD0 3D2DCF245 14F351A1E 224F5B3FF 2AA6ED34B 27 3BA85ADF8 282005732 3AD7C0223 2E73D1800 23DEA3F46 2275280F6 1586270F9 0CEF4287B 28 07DFE662E 314B74F2F 397BDDC4C 223A8071F 1F5BE3BB4 093BB1F33 0FCA2D129 21B3526A9 29 39FEADC12 0ECE1CD67 206228FAA 38FCCA606 0C5EEE08F 1C1BBDD4E 1459E42ED 11FD64ADF 30 2735FFB20 2AE9B244A 1A5AED974 38FCFD5CB 20310DB81 1C5FC3E24 19FB3BA17 3785BE865 31 24FF6B7EC 01C682673 19CB14113 2C8CD3C2A 066725853 02CD0A23B 279B54315 0CD571063 32 015E28584 30B497250 127E9B2E1 2C675E959 05F442DEE 394AEF6E2 079E5C840 12703D619 33 3CE4B1266 35270B10F 03549C4B3 3B3E6C375 1DBEF270E 0042C9737 049522EC6 24961653E 34 34176CD90 2B5E9EAE1 1C95E3C2B 1EF541D4D 26D1450E6 3B9D895AB 1B0084349 104B6B428 35 07A813421 2B39EAADC 33553571C 0F8046CDF 2CF6A7F23 0AE3BE8C8 308BFF531 2DBC0F9E3 36 168276972 2CF41744F 3CF2512E0 0F8B68ABC 2E609F6AF 04E03AC8C 0F9B66F49 3AFE28736 37 03456021F 1982574F3 0BB2B3F49 15A4A1CDE 15487D58E 2907C9ABB 15C0D2D73 28D8CFEC3 38 3D3FD677C 33AF2628F 3D217FDCF 30027E85F 0A463F23B 2F2AE8324 1D1E945E0 2EB355D28 39 3BCAF9076 3A7D2FF70 3C541F38B 249BD8A94 287BC4833 141391EB7 05B6443D0 2FEACC5E7 40 275F118FA 3A96B346D 0C713CDE5 02F394A28 3EBB1D18D 1BE7A9FDD 223C53CA1 2BF040F77 41 1161DE4F5 0544F9DB7 230847E45 322AF4E17 26944A0B4 3299F1420 1C9405B8E 2DBABD4CE 42 33165C531 268FE9B9B 081A914B4 39100772B 27DBF03E9 3E3A18AB0 13F2D2B83 2CEEE5FF4 43 275F97006 0A578F2EF 16CEE7EC8 38A5B0084 00DC9A1F5 1B88CFA3D 0D8B0B8EF 29FC4CCF2 44 04BBE4F2C 1546C3988 237105A43 339042B36 3A5DEBE2B 1BD09449D 38EFF588B 1CDD3A6C0 45 002E32D38 1E85D3125 3F51120D7 00420ED63 3384713AF 1D941BD34 2B39EA9CF 05B6D9E94 46 2B3100F7B 335EDB2E6 1AC8C8EE4 337FF7139 0672D7995 38A54856E 0124753F2 3A3560851 47 046207CE9 0FE1BC312 09BA5B289 39376EF2B 33F826C2C 2F6531496 3933B8616 23125B50F 48 3E5849C45 01EEDB390 141D9A024 2DE07E565 1813D12BB 36DB8D404 0E8A272AB 3A66B71AD 49 1A2A88A4C 3F0C9B4DB 266CFBDF9 163420CA5 281ABBE99 34771C295 3AC051848 3C53CB875 50 16F795184 3466F1FFA 1F433B456 1DDF13810 25F58CF69 1DD6CFE4E 10A236FDF 12AE697ED 51 1C8D17F4F 07C43B7D1 1C8DAD395 28F6C112E 3A336ADB3 0EB6889AB 2783A6A1F 2CDA40458 52 16044624E 252AA04B2 11484E85C 07F5024B7 286E3A67F 2EE6BACE4 277F1F864 22F3CF57D 53 2D1A3F4CF 0EEB6DEC1 30CD76F42 20403D1AC 3A72EF9D6 1DAAF2A39 03AB76CE0 0A2856267 54 0FA2A786B 38273EDF2 228A45016 0309DF52D 093BDAEDC 1B11E9300 1DA9C5324 03365EB1E 55 24DCFDC06 11CF909D6 2FF693F4C 366338F1F 22E641569 0ACA60D55 32D1B009E 035472E09 56 17F5D6662 062FCF913 35B211035 21ACE73FB 3B4148706 2D0CD106F 2CAB457A4 103E1E49B 57 21859E8DA 2F1E3B3D9 1F1014BE2 062A3DEB5 354C0C786 05A8982D4 35A758943 346EBA72A 58 00CB49E5F 211B1034A 3A5D2DAF1 21D3F3EB0 24B2D1150 1097C3685 2AA3671CE 0E5DC1308 59 24C8401BE 217B1F994 1FB9664A8 3D5057708 05A506088 1314842B9 3C8657064 14B1FA77F 60 2AD698E2E 3C129D1F6 2C744FF4E 1C1C052F8 18C38A9FE 252168A10 2EB68D098 3A001CBD2 61 2AF71324C 2BF41D408 0FC498E18 149A1A407 0FDC2C4A3 19D00C4A1 0F6B0DD29 268CF8E86 62 19F4D82A5 342C73FD5 0F5AEEDE7 21A2A8953 15ADB7A94 11DBE038D 0A5B6634A 0FA382B77 63 0A5985778 35AC3032D 35691C85D 2829D55EE 04A3FBD8C 2C85BFA8E 0F459B864 3E878F0BC 64 10C785EB0 054D4CE18 1BF657A8E 101DC64EF 0B4E3032A 24ECFD9C2 00C98BE0A 2A1F82444 65 300E8B09C 31A079FB3 0C41DEC5F 216CCFE4D 226C5A693 3C31A41DD 3A019974C 23B64EAFC 66 249BDC80F 0316ED79E 1E42B5567 0CFF04A4B 310678543 34D986980 1E3195429 280966E65 67 359A72B64 186A3999D 065825DDF 2D28E6000 10964C1E1 1468C970E 34C8B606A 33CC94DB1 68 370B29C05 12841A9E8 2147E7160 1835345EE 06DB43F37 33854A725 065E6614C 151E2D7B1 69 0EAADDB27 004EC6DDD 30AA39B8B 2AEB34AD4 2A13D6649 00EC67B83 1176417CE 0E3683151 70 0832BA87B 3B67515B9 0FD34BC87 1688F83CB 370B52AD5 3A2CD6F3F 3343BF461 37BD48546 71 16EA2751C 1799D9C42 24055CEC9 226A907D4 133C68F80 22CA03BF0 05F723395 2D35008AF 72 122A5C67D 3E46230BC 09F475BA9 15B4B6754 11DE75C50 28C17544F 1D85FAB8D 0D5AD9537 73 1C5497CD9 3D405F487 05535D737 06952087B 1C4744AF4 3E0EF881C 3CED3D1BB 1D91157CE 74 1D276153D 14604EA77 1661FB979 3BAC5E9FB 089F41406 283154122 2AFDCE892 1FD5E0810 75 2A620F4C2 0DE484180 2D05E6458 3E6D15A27 0A92FF0B7 2CBF7BF53 25A2F28FA 19A10CE02 76 3A77B1FBE 2B262F810 2BEEA0F46 39706BBA2 09257163F 1026D5D74 2E2483EBF 1D6527C1E 77 0DC1EBA02 383C59C77 28C7ED115 06FED31D4 16F610DC3 000890B82 2FAD16A3A 35C9AD95F 78 3E5C1EBE2 3C65A7691 2394005B6 251B1BB49 1F42BFA23 0E8608C07 24666F55C 11A5214DF 79 323E882C5 2DBFF5E13 3638BC43F 38CC5CBB5 1DBF783FB 0499418C7 2285E5A40 1A61D17E7 80 1E508F19D 0CF345F97 0E5648601 0A0951DF3 1194EE717 0A6C0B374 03C4E19EC 06F725799 81 0B54F4AEF 186A12343 04C4A60C6 27C2CC0E9 3973075A1 392C5EEB7 3933C99B1 005F98CB2 82 021B6635A 3764D0696 20942B266 0155C4EDD 3FDBF7497 37356D442 374F3DB06 2718357FE 83 120DF6F80 0E41F376A 03544C7B2 2D6795EFD 29E8811F1 1B3EFD388 01CA4C48D 2067E8033 84 07703D649 35221AB50 22141A0D7 268061A59 2D9192B05 3834711FF 3A07258C0 36253B5AA 85 1C4A564C1 26804247A 16A4DB29D 0BEF93C88 37A3EAB6C 25547B136 3FC935878 250E3BF1C 86 17049BB43 0D6426761 2BF3A471E 1665820E9 14412A13D 30D5744B0 2ECE5CAE6 01395189C 87 29615B890 0A2C5A664 216DA64F4 3D4AA9D2C 07B98342C 2603F0D76 0574BDFA8 3F9B35D5D 88 3A0414B22 0A8BE885E 155C220E4 2D3B17AA6 3017E1B48 26508C6C8 3FF25EC63 240EFF072 89 2ACD81CE3 0468D7943 2A4108121 1F2E8E67F 3AB446179 33325CA24 3006DD3A5 1A33F3A2C 90 2B038BAF7 070660C4E 30953C7B7 3E7375D04 1D6A39944 001BE5C8D 199A89253 0A82087BB 91 03BF7C836 2CBF9FC48 38EAB1C98 11C303993 3D748807F 1EBD41D17 351085EF2 1C55B94D3 92 116E0BE61 17BC8C403 31BD1EAA2 1CF87C049 2A41CC04D 3883EFEC1 3971BBBE2 190CAE3B7 93 172799BB5 3301DB193 2480B569B 34DBEFE9C 003287827 38DAEA1CB 0B0E25BB4 1972B37E3 94 3EF1F9EF4 189D8C3E0 1941998D3 259838BC9 28E545988 33BFC60D8 3572B10F3 197913B6B 95 24CF96D66 285347801 22BC70E5E 394231BCC 077583F4E 0364420AF 278FBF5CB 3850AFC8B 96 1B38C4A50 04439E0B5 3A7BEB18B 3003A36CD 329D5A2B6 1BB123AFA 049C2CC94 0F604D1DC 97 28D47EF33 24CF66B6B 24B716FA9 34ED7F6BB 186AE44B4 1380D0726 1CC51324E 16BA74F62 98 04422E60A 3424BA16C 3FF1B39DD 1A1E658F7 33457317D 14E822151 3EC02F279 28593D11D 99 0F2DF0912 21BBFA838 32D634EBF 2061148FD 09A565B74 2BCE430B7 34DAAD9FA 228ADAFE5 100 2D7EE0544 25D57B7CA 0FADAF20D 19B4F6444 3A75DF1C1 0AD3EDD56 0A4D61EEA 28C1262A5 101 1B6AEE253 0BFE02772 24AB19547 186A377A5 03089B4E8 128955F60 3A8DA9AC8 2931648B3 102 21BE0200F 00F34B4F5 34FF3261B 1A0E27AED 0A821AEFB 21B0BA404 1C6A644A4 1734EBB33 103 201FBFD73 0592E9D86 053D87C9D 3CAFC7479 22F1BA3FA 3DB25DD15 31D468990 22FF2B539 104 06C77404E 18AE64252 3963D899A 37179C03C 0FD2E3D04 191E64DBB 380B841FB 368E1DEAA 105 3A561759B 156243DE8 04325D217 33993D0B0 0CEAC2109 002242D1B 33C1D9F5E 1EC4195D3 106 17D7A9B74 1F44ABA75 17B572FE3 096008B9B 1F1E00AAE 05489F7A1 17A4C131D 1C018E923 107 0A4ACCEC8 1F294A30D 19CAEE64E 002787A1B 03EB3238D 27C10F626 1C9E656A0 3F73609F0 108 1E0E3C802 1B52D12AA 2F4E003B7 23BA7A6F1 3CAA0998A 32E96C916 168EFA1EE 28147EE33 109 1CEC9799E 215D9302B 176BB6639 003D5E371 12FE4ADB3 3106B64E2 001D9C28E 0F39059DC 110 31570792D 2260D7FEF 1AC830374 118FE7C78 08F982159 23BB2B13A 2C7944305 376396F3C 111 2D340540B 272E94D06 097C70995 0E70DDADA 1DBD644E5 341A72A58 01CBF5334 2C7999AF9 112 3FF17764D 0701DFAD3 146BDBB97 229D2D7F0 03C5DA21D 3A5916EC7 2390AC01D 197D64233 113 3E9759D5A 00B237425 0B7E646B9 190CB4D16 2646AA1D4 1A373103D 337E5EFB1 0199DE4A1 114 3FD5ADE8A 26B843860 0A2D0AA7B 3C351E07F 1B25376AE 05C553CDD 1DBC3F38D 019823A2A 115 30FF187B4 112F9D7A1 1AE977517 3760AF555 004F86368 3700975C2 0518029DE 032427D9B 116 3A86D49BB 057E649D8 2FDE33D7E 31254217C 30E05CE12 10BCC1CD7 1889C5139 38A163ECF 117 2610F5174 02A7ACB27 208B84FF0 14609CA80 0F3526318 38EBC7384 287C57BAA 279661A9C 118 014F6D77B 1036B3D2C 294F1999A 33A059187 26CCE0507 180DF3129 00A6CAE22 2AC0F23A2 119 347C62997 1912A710D 2260C531F 2F54BBEBB 0A2D90305 1BBEE20E4 0AF79997E 2376F3D0F 120 04484EB82 181977944 1C1CC2693 227ECAB0F 23F32982B 19E2F290C 1BA2300F8 0EFB06247 121 0EC048AD8 3B2168495 34FC02DA1 2C0CDEF52 0553CA222 25DFA4581 29CF66B6B 0AB9C21CD 122 2AF502148 3B00632F9 387CDC4BF 3F8B9F716 19084CD65 0354918C7 39D1FD9AA 0F5ABDB77 123 2C6E2557A 3E8A19D6B 3E6756A28 237E6E5BF 24CA57004 1D52401AD 0237F1D80 0FB2B335D 124 228F4B540 07532BF5D 101F67F52 29D8598EE 0421A0E23 2D89C2AFF 0963D2F3B 24C472A63 125 0CF3598E8 196A40BD2 00E63B26D 088A0BFCA 1C78E9016 03835236C 33071A836 3949DC586 126 3E815D747 1588D4E96 073C8D44A 303281AE4 095D31EC8 1F10F69DC 200F057D8 1F270128F 127 34F9ACB6B 384870FF1 257A863DE 34B36BA0F 3FA3D216B 27425041B 0E0DD0BAD 2E95AD35D

Sequence Set 3 for segment 2 (hexadecimal format) q\blk A B C D E F G H 0 13F99E8EC 3CF776C2A 3300A482C 0B2BF4791 17BECDFE8 35998C6D4 05F8CB75C 259B90F0B 1 116913829 05188F2A4 2DB0A8D00 2F770FE4A 185BE5E33 0F039A076 212F3F82C 116635F29 2 004EE1EC6 18EF4FDD9 26C80900E 1A63FB8A7 1DAA917D4 0E6716114 02690646D 0CC94AD36 3 06D4FF377 2716E8A54 16A1720C8 08750246F 393045CCB 1DBCCDE43 114A0CAD6 181690377 4 3DC4EF347 1F53452FC 01584B5D3 11D96034F 1FA62568E 11974FACA 191BE154D 397C9D440 5 05A1B6650 29835ADAD 2F6DDABE4 0976A607B 11BA92926 2456B1943 3E3FD608B 095E7584B 6 00CC66282 0560BE767 21EBAA7C6 2D8E9ACE3 198A9E285 05F3E73DD 13DA751A2 176B75E43 7 03D08ADC1 2254606FC 3C695D892 1DA9E0280 2CD4FF589 19B78A5A4 0CE67A7C6 12535A61C 8 0984647CF 0822BA46B 3EB2BC076 212596F54 11CC2E64E 120BADF9F 0DA72CEDE 30D0E106F 9 083CE5726 1F05DA925 169D93EF6 1FCADF3D3 08A5CF0BC 317C8508F 19BDCCFE7 0FACE3631 10 27583A466 1CB1634D5 03C7849F7 38C6CED00 1161C173A 15A645D3E 281A7ED92 076ADA797 11 33BA1AE8F 187F578EE 32473D69A 2458B703B 267E59071 0F317883B 3E7DEDBF1 3B9859BA7 12 0322609A3 20C4C957C 3FD638746 3FB716D79 36BD0CF1C 333B11B8F 0027ED1F2 3E7471BF3 13 3529922B1 0ECECBE04 1980B9B9E 38D60363F 18904BCED 108E3E5F1 34B95C446 338F51DAC 14 21FD50527 0EA2F7A31 1E294A159 114734A02 120B90BF3 3F3617C92 0129071E2 106640936 15 2B59354BB 275BF9761 39C6FF332 2004B3902 053F9DCB0 19D79A902 2B3125038 20649B43E 16 03A8A7A2B 091AE6721 18651FD9E 1F5415ECD 1B38EA62E 07FB0F422 3EB58896B 077FE4C7C 17 06A13CB38 340099B18 2AE6D6385 1669631F9 28E51A676 19A023391 261855F39 3E518F0BC 18 2A88F831B 09D295831 294C468DF 1477F0A13 37725C6EB 00E7DB222 27D610157 349A8FAB6 19 163E1C44D 3F98B6F4A 1805538DD 01EE3DB4A 22AA1797E 27568753E 16090F219 2C9838C01 20 34B0543DC 121B8EA82 00873B4A0 220FE7C05 2EDBEAE34 1104BDB93 0711E8C0E 0E1C107BD 21 226183AFF 15643DE71 04A4CDECB 2E67FDF8A 26D2A6D40 25E7695F1 1A99778F5 20FE0C1A3 22 0F7EAC09D 12BB72B2A 182E44301 2962EB85A 3477C1B69 3E3CF56F7 29C9D00C6 39788600C 23 31084BEB5 1DC90E345 391736CC1 3C8292AE1 38A0D515C 3977012F6 25D1F6055 36A7D3F8B 24 229D3ABAC 1044BA05F 0C391B88A 0636A90A6 0B14322AB 21ADC33E4 2DC1A3BFE 0D7FF6D1F 25 33C85B393 37BFA31B6 134F872F0 0C5EA36E1 286956ED1 1632092FA 382B4BB10 23DC3EF14 26 38E8B9BF6 0A0CE666B 207D98054 23FF360AD 121BFDA4E 347D442FD 242922C07 23C6E4115 27 263EA8516 36138BD6A 0ED9C55E7 3F0937876 03232BC24 18E5FFF26 3530CF206 3981B7414 28 1D9AC2E79 051B220E9 3F3B09EC8 0D3F6C366 0201A7CB9 3D5477092 22185FF9F 105AA5348 29 208D85694 22104E7C5 14BCFD3DD 3592DF665 1F4EC3265 24358076A 2D20A8000 017F2D489 30 36B3A9A2C 3F8E0F162 13ACDCCF2 16951F727 271E73555 1B3EDCDE7 162B45352 1CAFA635A 31 2D30FE705 3EC9BFC8D 1B10F8349 34F973F31 1CA96A349 1A28B4543 1C5367CE6 2DFAB0AE7 32 21D93EB5A 0E49D6211 3C6FCF774 09F44CACF 2D8CD2BEA 037DDAD3D 3BBD06D1D 39CBB996F 33 159B1F948 0183E8DCD 3A484866C 21F8DF1A5 219A58193 2D1B3C399 2275F19BA 0EFF4C612 34 22EB93A82 15047E272 15428D77B 38FFC612E 20609BE54 3226C8254 3E5568DB2 159284EED 35 34529707C 2E84585F4 20DFFB4C5 28288AA00 10EFC1E07 3C4D211FC 379087C3F 25716A7DD 36 20106354F 22AEB9FD7 3A6BAC67D 3126294C6 0FBC874AC 2DFE5675A 391B1DDAA 06BAA74D8 37 348F831C5 2E44BF3C2 3D9F6F454 20746A30E 08D183029 35C6BFEA7 2729B552B 263BB2EBD 38 202D7F08F 0DBE1C144 132F4EC09 184CD9B93 2596F5884 2A55B8217 2BEAE02D8 235A19A43 39 2DDE3FF5F 23932555C 001ED92D7 22FCD3D60 2C0737593 0B27E62FF 0693CFBDC 284D5B33F 40 1DB9AB8E9 2995EE0A1 1ACFE9892 0D41BCB9D 2E3806507 25CCD5D60 3536DF04C 0BB0A5E3B 41 3FFD4DD82 3E69CC1C1 2BC30FB74 3462F70FC 164FAE762 09B83F8AD 1DF593F3C 2DB478034 42 16E24E9B6 0A9FCFBD2 3A018544C 1ED8E2855 0037681E4 05950E1F8 1107DA097 377A25C65 43 03C9318B8 0C70A7749 0D58708C2 0CA2808C4 219E02554 39315B2F2 2E089B00F 302E135C7 44 04DC211E8 1DD20A505 21A50649F 2CA438C04 39CAD66AE 2E1BD969F 002748760 069924211 45 2E84BCF09 226F5D43C 37BE7EB10 07CDC854A 06FB50D48 08966435B 01BA5E5D2 1D34057FA 46 2D8DFD565 0A30D633F 33F93B7C6 0B330E9D2 0E659B262 130669024 19A9D5F64 38059132D 47 17E4777AE 1308F9046 2F7C0483E 1859E0943 0982C9101 05453D92C 001F53877 388A571AB 48 00D29CC63 0A6D3BDED 1CA44D2AF 388C002CA 2A3D70EF7 2DD3F5A6F 39FEAF0B6 11DFE385F 49 3E3A6CEC4 122F5E8BE 360B96301 0632CF244 2E8985A9F 0FD256C87 0449C29D4 26B713C90 50 238150687 3D96F7F7B 0091E6D18 21802352A 02F7A466E 0A5BB6648 350DA85DB 1C97F4544 51 306BA76DE 379A88697 3F0DA31E1 EBF48C71 27F8A46EB 3F75A19F6 277002F97 275B43715 52 24D946CC1 38DF102DC 3EFE1F5B3 3C316E148 2735B20CF 0688E430F 0316DC923 24919BEA1 53 0EEAF72D2 3C7248573 1087A7BD6 08EDA9BF6 2B5D97BF4 26733DC60 1190D275B 2EC7ABD30 54 37C6AB63E 2FFC9C790 02CAA37A7 1B34A3F84 0022CD5F6 3ECF891BF 193D545E2 0172C674E 55 0848A41C3 1D8150EE7 3D8A8549A 2595F707B 00640B276 2D44EBDAE 1CAF37453 377EF590A 56 16B7A5F7D 1F5AA7998 382300A8B 218916E53 19D00E728 1EDA11790 0BBDEF9C4 1DEB15796 57 3EFB3368D 392AA88AD 29CF3CACD 03F59ED8A 1042098CA 1721B8F3A 2B5DE9312 0CB5E6F23 58 1A8B0FB9E 3FBC09C8B 3D7F3E248 034C9BCB5 1BDD89300 3392476C0 0C10AED4B 23BECA42A 59 0EBC749B6 33453C7F6 304735F5C 334628143 1DAF6E7A9 11BB9C393 226C5E4FF 170372039 60 3F9262CBC 0693308C8 21B563415 09BDCC403 0112C79D4 2DA9F1134 36AA1CD7D 3A1608BFC 61 218AC590E 0FACC734D 02132C9A3 27087557E 076B3ECE7 2EA16BA3D 0E1D452F1 3F70B027A 62 004F9DC68 25BE3AD9C 2CBD3C07B 3F9DECD71 3E771E15A 11FF2F24D 2AEA5DF67 1E838955D 63 3A04BC376 1D19254F1 00F92DD2B 3C57484F3 181D0973E 319F9CEEA 053ADEEDB 1A3C22150 64 0F78BA6BC 2DFE0E681 3035BD77D 0A0FFD148 275F50C66 2246E9053 27B2BF3E9 1741894F8 65 1ACCD0F79 22F0AEA4F 32796ADB5 134A4A876 183D989E3 204C4BF97 22300E86F 3F18744A3 66 3EB6E19EF 1B24EAB88 2E318F810 3F07B618E 26B4C0087 31CC10EA8 169E1B650 017DF88ED 67 2BD9E8FED 0AB104122 30C9D81A0 09EA73C7F 141357B1D 000A7DB48 1DD06FD41 0AFA8EF72 68 19CA5678F 28A89AA43 1DB945917 262AF69C3 3145A4473 3742CBFF5 1BCD965E9 1B0E7FC84 69 077838B25 2BF7032F8 23DC2E014 028544277 37B411B5F 392FF6CDC 1D66F2BE9 011372DA0 70 39596216C 05A651F63 183A6AE26 0D1FCA203 0FF6F0D22 2FEB8364B 05A438ED8 32D045F13 71 3711AD513 290B237FF 20E2A9B26 0C72A0234 2F1ABBE93 19B505378 354ED915D 0C359F272 72 1D7786BA4 1CCDF053A 36828B333 0ED27AFB6 241326FC4 1A9C37F8B 0A9C3C372 05937E898 73 1053B9CDB 040B97B1D 0D4FF481D 23AD465A8 2906EBDE2 0C4F6C09D 289C5FEA 2D90D305A 74 39073122B 35FEAA236 1B38B7A90 2E02AB9F7 219FEEA0A 36B3B2EF8 39A3F4C8B 15A42C9DD 75 2C6326A9E 33F7536C1 2A120C75F 37030CAA0 3A011882C 098C8504E 3B92D756B 175811CF9 76 38A0F736B 2BD9E9C32 3B989715A 2A646ADF4 2D02FE38C 11AC7E9E6 3F5464862 0F382B0D8 77 26897D80C 145B21D3E 143F5E320 30549707E 28126710C 122CA92BE 3AF47270C 0B544128F 78 00E931208 2E1E75EAA 374C36E5F 21724DFC5 1DFCD2028 1B3FF774E 3A826A68B 1781CDCA4 79 0C3D7268D 0B7A26BF9 1587CE5CD 1D04E1E60 36240007D 1AC403449 0417F9622 02B9F8BED 80 1B569F488 08A3F3A46 377F03A18 2DE416045 1ED96E381 33F4F16DC 2C8DAAE4F 33E384AC7 81 13F709786 02A4E32CB 14C7F849E 09EA16987 06C849EA4 219E4B995 243CB7F07 253513BC6 82 09B83FDF2 119D60439 278290BFF 2483E6F2C 0EDEC175D 242A669C1 3EB639EF0 31EBB4CA0 83 22CAEF0E4 0B2FCDED0 19BA79607 343F81C7B 289AA213E 358AC9FFA 23956ADA1 00BC725E7 84 1186F95E3 2F95F4048 3CFBF41E2 1D1E4BE96 26B38BA65 2F715E590 2235C0029 2C89AF93F 85 33437ED6C 12F14DB69 2E70F5611 183752704 142BC8B34 3B90ECD86 1C11EB493 1022D4782 86 248457F60 05B9A28A5 0A2A5DD56 16002D9E7 34C87FB16 2E32BAE0C 21065BD64 1CCE92BB0 87 1DCE3941A 1D940ACE3 30D331B98 3D5A3BAB6 119791607 10FB0D788 2C78E9015 100B598E4 88 39C0BC811 1B886594E 27AF50C73 2DCEA05E6 0805EDCA9 3A5989B08 18AD24255 1683B7CF2 89 186A3D233 09E8B95DA 1ED9F3DBE 1B19A74F8 356CA7443 316C9FBE9 3F8A3162A 3A0BC11CC 90 02F039B63 2F02D3E75 0F5B5E89E 3D062255C 222C6AA4E 25DEA06FB 39488C071 139318BFB 91 27B5B6EE8 22154E0BD 3FF7729F1 1052B1947 3D477BF2B 3EDB6745A 1B30CF849 030F84AF4 92 27B2D40BC 01EE5E9B6 24B0ACF84 3370F65E0 067D8DFA9 1C01B9327 26FF8FDB5 3809C0CA6 93 11F581193 07B9B7A7D 1CA56B4A3 3D088CC6C 11D52C38A 344760F0A 3D3AA336D 0118CBD93 94 096990784 2960D1672 3BFD7D847 2BC297EEE 32168CF28 3912FFF6C 08ED9BAB1 34452C6E5 95 02CD48DC2 186403849 24C6EE1EA 12ED5268A 2718C00E9 27E8F18CF 145913E2D 0B09009BB 96 06B97DD08 2880C9B96 37EB87E03 14C4ED01D 17041E5DC 347A412CB 088CE591B 0BE926B22 97 116250DF7 1745B4329 1102B7093 1CA549C5A 25244AB6C 374E0F19B 274F76015 0FB738F16 98 12841B9E9 1F9C4AEEB 1445F0C98 39FFB6307 02AB688E7 0FD8B499E 28D533072 138F162EA 99 22BD9525E 2030E58C6 25F2CD033 157D93437 1442E92D2 3D6EE9DF3 3CA5B469D 0588A0FAE 100 0FDEC177D 2606157BE 2224E556C 0C6F33897 0F830DE1B 3C3F9C1D8 2AF576923 0D4173E27 101 376EF82C2 30E3C582E 0A82DE29A 1B8D454D9 079ACE6D9 2579984C6 392F28400 24CEAEDF1 102 1CD4AA9D2 1DD6F4DA5 3485B7150 105DE02F9 22168E0FA 24F48AA6C 003771A39 306890843 103 1F8303786 2C981AAE4 0819F22E9 0A1D88D55 3B4C012FD 0214CDF52 19DF3BE8F 02364E19A 104 1364A15C0 16E9F9961 17E598810 2654E5A2C 09B43C7C8 3A5E2AF45 14FC71E26 2B4BA69F4 105 12E128BEF 19166342E 04A1404B7 283D17B66 014836F64 13BE0B4B5 2F8583C08 2B19A7FB4 106 19F83FDE2 361D25170 36354011B 3FF4EC74B 1B2128FF9 0C849EB1B 096B991D8 1CA7A74AA 107 32E0BEF35 11A61714D 34C56D40B 0742C52FE 00ED2F1C4 3997FC7B7 06E414374 180DCD64F 108 18399ED59 224E6C2FF 3450F1BB7 27A1CA959 21B5E00F8 13B67DAE8 0B14C022E 0E41BBEE2 109 318D94D05 2EBB53B17 331C3E6F4 0FBCD71ED 380FF18B8 3E3C75B26 0E0088A18 17553D2A2 110 37AC7E5D5 27C9EADFA 3FC47B5E4 38699BB57 1564F8B27 3579C7FEB 13401BD88 0DB519DE0 111 0FF4D6F22 3C84242F3 2DEAE40AD 305F320A5 244CB97B0 0892DA905 3F09D5CB5 332E7DB02 112 31479E580 1B6AD13E0 16A1CF9E2 33A0A119A 1AC8388E9 3D4105F37 226501835 27AF1310F 113 1CBDAFE39 3E5A30C1C 236E9A029 063430D97 0CD91A825 02F335D7E 1989FE0BE 13C4E2A20 114 10B393370 33CB79316 2CEB44FC0 236019420 248F95ACB 35034B6F0 365691771 34A8FBCB6 115 25463FC5F 082EC0ED2 038ACE1CC 3E959B49D 21B8C04F5 08633F3A0 3A5D18159 12B3EC4C7 116 167B32C3E 06FF88387 34C3F468B 3239005B2 121C913AF 21C90CE16 28B54D557 3811CB0A9 117 221BD0503 0AF619499 21F8D40C1 1B3DA7AEE 3FA2E3B05 348466C50 10F12A28D 0E70B26AB 118 1D79A57C5 315D2460F 1402B8222 28DC66FEA 1BCF748F9 2AD5D4227 0094D2CAD 25EA22A58 119 062B39CFB 310E8818D 0F2D0A235 3F6468866 33F86F342 39CAB5BBC 2E7D6A8BF 3E9218162 120 2FCDEA0E0 1BDD766A4 2827B99BB 0B5F04CC9 1C9E02A9A 1A6675ED4 033497A06 07D4ADD44 121 3CD46CD9D 311A64A85 24DDFE6FF 341106FE5 0D0613CDA 0E9276056 178ACC4F8 23DEA3CB0 122 2762D6A40 306FE3843 1402589C8 382B07654 160BA3DEA 3815B54C8 273960105 2076A15E5 123 1C593A744 1562487F6 0C38617B4 2CA68266A 071C4BF93 2593F0BDC 1562436E5 199BEEA49 124 35B8C7503 278F57EAA 34A804061 19C657A74 385734710 3FAC27628 0707BED4E 32F20F45E 125 34994C46C 1C6B99499 1AF24D850 11AD795D3 19288BFE9 1360C1B96 3B5D8DBC0 2554E72D6 126 22D7095A4 34B70502A 3F0CB27D2 04FC214E6 24C0B80C5 03D6F4DC8 1432A099E 26300D70E 127 21C33416F 18B894695 3AC062614 3537CF601 00A20A8B8 1CD10BAF5 394DF1DC0 0925851ED

where blk denotes a subblock.
 7. The method according to claim 6, wherein the first or second sequence is a Secondary Advanced Preamble (SA-Preamble) sequence.
 8. The method according to claim 7, wherein the modulation sequence is located on subcarriers given by the following equation, ${SAPreambleCarrierSet}_{n} = {n + {3 \cdot k} + {40 \cdot \frac{N_{SAP}}{144}} + \left\lfloor \frac{2 \cdot k}{N_{SAP}} \right\rfloor}$ where n denotes an index of an SA-Preamble carrier set, indicating a segment Identifier (ID) ranging from 0 to 2, N_(SAP) denotes 144, 288 or 576, and k is an integer ranging from 0 to N_(SAP)−1.
 9. The method according to claim 8, wherein the first or second sequence indicates information about a cell ID, IDcell according to the following equation, IDcell=256×n+Idx where n is an index of an SA-Preamble carrier set, indicating a segment ID ranging from 0 to 2, and Idx is an integer ranging from 0 to
 255. 10. The method according to claim 6, wherein the modulation sequence is transmitted through a plurality of antennas of the transmitter, the modulation sequence being interleaved across the plurality of antennas on a subblock basis.
 11. An apparatus used for transmitting a sequence in a wireless communication system, the apparatus comprising: a sequence generator configured to obtain a modulation sequence from subblocks of a first sequence or a second sequence, wherein the second sequence is obtained from repetition of the first sequence in a same order, and wherein the modulation sequence is obtained by converting element X_(i) ^((q)) of each subblock into two Quadrature Phase Shift Keying (QPSK) symbols v_(2i) ^((q)) and v_(2i+1) ^((q)) by using the following equation: $v_{2i}^{(q)} = {\exp\left( {j\frac{\pi}{2}\left( {{2 \cdot b_{i,0}^{(q)}} + b_{i,1}^{(q)}} \right)} \right)}$ $v_{{2i} + 1}^{(q)} = {\exp\left( {j\frac{\pi}{2}\left( {{2 \cdot b_{i,2}^{(q)}} + b_{i,3}^{(q)}} \right)} \right)}$ where X_(i) ^((q))=2³·b_(i,0) ^((q))+2²·b_(i,1) ^((q))+2¹·b_(i,2) ^((q))+2⁰·b_(i,3) ^((q)), i is an integer from 0 to 8, and q is a sequence index; a subcarrier mapper configured to map the modulation sequence to a plurality of subcarriers in an Orthogonal Frequency Division Multiple Access (OFDMA) symbol; and a Radio Frequency (RF) module configured to transmit the modulation sequence via the OFDMA symbol to a receiver, wherein the first sequence is one of the sequences in the Sequence Set 1, Sequence Set 2, and Sequence Set 3, given as follows: Sequence Set 1 for segment 0 (hexadecimal format) q\blk A B C D E F G H 0 314C8648F 18BC23543 06361E654 27C552A2D 3A7C69A77 011B29374 277D31A46 14B032757 1 281E84559 1A0CDDF7E 2473A5D5B 2C6439AB8 1CA9304C1 0AC3BECD0 34122C7F5 25362F596 2 00538AC77 38F9CBBC6 04DBCCB40 33CDC6E42 181114BE4 0766079FA 2DD2F5450 13E0508B2 3 3BE4056D1 2C7953467 0E5F0DE66 03C9B2E7D 1857FD2E3 15A276D4F 210F282AF 27CE61310 4 3DBAAE31E 254AE8A85 168B63A64 05FDF74FB 3948B68563 3656C528 1799C9BA1 004E0B673 5 177CE8FBC 21CEE7F09 397CD6551 01D4A1A10 1730F9049 067D89EA9 3AC141077 3D7AD6888 6 3B78215A1 17F921D66 385006FDC 011432C9D 24ED16EA6 0A54922F1 02067E65D 0FEC2128D 7 01FF4E172 2A704C742 3A58705E1 3F3F66CD2 07CA4C462 1854C8AA3 03F576092 06A989824 8 1A5B7278E 1630D0D82 3001EF613 34CCF51A1 2120C250A 06893FA2D 156073692 07178CFA7 9 032E31906 2DD318EAA 1DE55B14D 0EF4B6FB3 27DED0610 1BC8440D3 0ED86BF8D 14FAFDE2C 10 174725FFD 0D2FB1732 124470F56 292D9912B 1571408A7 227197AE9 2430BC576 0B67304E0 11 1F1DCD669 293DD1701 0C34F1B84 28496EE51 3DC41327F 071C06523 28E1657B6 02588EFDA 12 22E4AA041 3810362F1 1955F1DE7 0D6D2F8BE 11F31358E 3EB27BB12 1F4E60111 119BDA927 13 14300B522 152E6D482 168DF6E43 0740B7AE0 14FE7DCDD 0FA092626 23697615A 1F1331EB8 14 12C65ED00 317643CD7 2C637A415 15E3E5185 0F5CBB9E0 23290B156 26F37EFE8 1AA174793 15 1DD6453F0 032C4BD39 082659BD5 32005E691 224E555B2 3A9615A8D 1BED03424 28E6A9CED 16 068AE7EE9 16F724910 3803DD9BD 2A31A2FFB 010BF5237 33CB067E6 0280C28B7 184417B94 17 1D651280A 2C7BCF443 17324EFB0 236E5C411 381215183 2F076E64E 0A6F2EE74 3DA4196B7 18 27341650F 1B520099C 09AC91114 000A5F48B 30AB4B9B6 2D0DB0DE6 1CF57978A 2D424406B 19 3A01E2FB2 0DF5B257B 019D1063A 0EA7DCDDB 242D96605 2DA675F15 1DEC54193 3B6341C16 20 2DDFAEB05 21D0A1700 0FA09BB78 17DA7F8BB 06E883B3F 02E6B929B 2C1C413B4 030E46DD1 21 1B625E3F9 0F708F756 00CD97B18 3F036B4DF 2CF08C3E5 213A5A681 14A298D91 3D2ED63BC 22 2DA48D5A9 0C085BD17 01903428A 3DF2A30D9 29061309A 16F7DC40E 2AF88A583 27C1DA5E9 23 30DBAC784 20C3B4C56 0F1538CB7 0DDE7E1BE 2C312903B 0FF21E6C2 032C15DE3 26C9A6BA4 24 3188E8100 385FEFE2D 3967B56C7 3F62D246B 1826A755E 2CDA895EA 2FAB77825 1B525FF88 25 339467175 2DE49506B 27B7282A9 0254470A3 3374310AF 2DF20FD64 3848A6806 11C183E49 26 02AFA38DC 0F2AFDDF4 1A05650E2 061439F88 11C275BE0 30C41DEC9 119E070E9 1E76542C1 27 1B364E155 086FF808C 29F1BA9DC 0A8300788 2E70D0B3A 34EA776B1 3D13615C0 15FC708D4 28 38ECFC198 07034E9B3 2340F86B3 07562464C 22823E455 1F68D29E9 257BB66C6 1083992F1 29 375C4F5AB 3C0F5A212 0EA21BC30 13E8A26F2 17C039773 283AD6662 1F63AB833 2DE933CAF 30 2B773E3C5 3849BBE6C 1CAD2E5AB 0405FA1DE 1B27B4269 3B3BF258F 300E77286 39599C4B1 31 1E878F0BE 0AE5267EC 376F42154 1CD517CC2 302781C47 123FEC7E0 16664D3D8 24B871A55 32 20E200C0A 1C94D2FF1 213F8F01B 369A536E0 161588399 29389C7FC 259855CAC 06025DCE2 33 28D2E001C 3C51C3727 106F37D0E 1FB0EFDD1 2CD9D33C3 1EA190527 0BB5A6F9E 074867D50 34 08EFC44B5 1B484EABE 05FEB2DE2 211AF91B5 0CF52B1E1 002B5C978 11D6E5138 0D402BDD2 35 337C618F4 0A4C31DDA 1D93003D6 006D7D088 348043A6D 325E05758 2C53EEEB8 15ED8E614 36 38375C2FF 18C78FD02 30C11EF53 3916581DD 1B75263FF 2D8DFD6A9 00C4E8482 1D201F96A 37 2E10B0D05 2EF203893 2491D95F1 34D995B51 32214BDF5 3E45674B1 3E74AC66E 1B813A999 38 153E7269D 2391C7BFC 1ADD3A595 0EFD3086E 00AD88A8E 0D8B007CA 0F22C5F9D 010E86385 39 3B58C7BFF 0BA76496E 3AD0B7BBF 1D6D10FB3 3A607BEFC 28F122A95 057950727 179449CB7 40 37AC5194A 390BD9C00 3A48C0461 12FBCE4C6 2A8DD4171 10E9F1E34 251F5D167 1124E96B1 41 0FEF20C67 31EC9EA3F 275B31143 22DA4F02B 352C0F648 21FF5B9F3 3E5BC2372 0A1AE08FE 42 080EDC49B 17AD7F7BA 390775B3C 1380B00DA 2477FF17C 2E6D9E5AF 05381F2DD 26143CC17 43 2DB485795 1B3252799 39AD0211C 3AAE31B76 30532A187 1C8EA5F5A 2EA6E4D6B 30570A2E4 44 11BB4F78A 12CCE1428 2C67EEF99 20E3F841A 20CFCD5F2 1618A7B94 111FF6092 2ED034E06 45 1C66335E5 0CA9B9BD2 3213028AE 15542DD28 290F7DAE2 2137F02D5 17DF9445D 24F162FFB 46 360FB966B 17D878955 1C1D67093 065B84F3A 1A1D955E3 24C73C11E2 70EA9EB2 114DCA02C 47 002CE84DD 0616DD253 3EB188345 1FF852926 37E160F00 040DF51EC 1857A33BA 230FD8A0D 48 233C0A71F 22E428104 0325F8170 39566B188 32DA16A4A 039FDF1DC 27A3E946C 0D69F26D9 49 0583F9F73 378380CB6 059D8A960 3E3442C7F 026138ADB 25F370F1E 09D3EB2CC 2D37D5000 50 08DF9CC66 2C2E7AA8F 3CB241ED2 03216B4D2 39736B451 25F6F113F 08FD2AC3C 1974574FD 51 3D1FF6041 2CE2AB97F 01A734F3B 1DCF9F3C5 268D595CA 1FBD2A8B8 0F1449F86 370C352FD 52 123218E40 3AA057589 20F73A16F 26E3BCA5F 3A7330DC6 12C659384 39D99FF1B 276DFC540 53 185AEDEA4 0418B3643 382F7700A 3FC35ED60 07BA2F838 1BC840C93 2469A41EC 0CE7B4CB0 54 2E194E2BF 3302A0B28 1836001EE 154A4738A 36A3BBD72 23CCD0EB1 044B3A13B 2B5008057 55 0B76405D3 231AAA728 0EE05E9B6 0093A21F2 2065A01D0 1F2B810D4 1082F3A73 1DAFEA492 56 07AD23A3A 2091957F1 3B9D8CBF0 21E4160BE 1BFB25224 3D9085D16 03076DD39 1DBCF8D03 57 226D70EBF 3ED15246C 364130C46 22F6D4AA3 3FCC9A71B 3B9283111 0484F0E58 14574BD47 58 3F49B0987 305231FA6 0CF4F6788 3B9296AED 2346190C5 3365711F4 078900D4 A352686E95 59 1D62AC9A4 104EDD1F5 1B0E77300 1CED8E7F0 388E8002C 1FE6199F4 02239CB15 1FE5D49A2 60 21314C269 28600D12A 22E4F1BAA 044E211B1 0DECFE1B4 3E5B208CC 1CFC91293 21E7A906B 61 02C029E33 1BA88BE4D 3742AE82F 21EF0810F 17D23F465 240446FB5 17CCE51D9 2C0B0E252 62 16F9D2976 10185ECE6 2821673FD 02674271C 3A8A75B7C 226D4BF0F 2216004E5 0E8605674 63 06E4CB337 32A31755D 062BE7F99 1417A922D 2271C07E5 24D6111FA 3F2639C75 0CE2BB3A0 64 18D139446 2426B2EA8 352F184101 1330535E 10CC1A28F 1A8B54749 22A54A6F4 2F1920F40 65 22443017D 2265A18F5 14E1DAE70 11AC6EA79 31A740502 3B14311E7 3AA31686D 26A3A961C 66 2018F4CA9 3A0129A26 39BDA332E 1941B7B49 03BBCE0D8 20E65BD62 2E4A6EE6C 3B095CCB3 67 0CC97E07D 11371E5FF 31DFF2F50 17D46E889 352B75BEA 1F1529893 21E6F4950 1BD034D98 68 275B00B72 125F0FE20 0FB6DE016 0C2E8C780 3026E5719 119910F5F 3B647515B 1D49FED6F 69 250616E04 0882F53BF 11518A028 3E9C4149D 09F72A7FB 0CC6F4F74 2838C3FD1 08E87689B 70 212957CC2 03DD3475B 044836A0B 2463B52C0 0342FB4B0 34AD95E9B 2936E2045 3B0592D99 71 2922BD856 22E06C30C 390070AED 09D6DC54F 3485FA515 064D60376 07E8288B3 3DD3141BF 72 29CB07995 007EE4B8B 16E787603 07C219E93 1031B93DD 23DEFF60B 30F1D7F67 0EFE02882 73 11F3A0A2F 38C598A57 3FE72D35B 1F655E0D1 0B3AC0D92 3430DDB1A 3BAADBF42 02D6124C0 74 05FC8085D 345A5C470 07DAAE1E9 0D7150B88 25D2A5B10 16F8E5021 3240EFC71 0F0F5922D 75 399F32F6E 2EEB17A8E 0D61665D0 2138EE96F 3F8119063 01B5048F7 27075153D 265DF8280 76 3962CC581 2337D2983 286FD7BBA 185126E0E 1F95AD927 0F7EBC374 1E3A4B6FF 20CA9B9BD 77 1C85C13AF 290C37167 1FDD26E8F 0C38736B8 0174DB972 0A921E3CC 097557C9D 09452C1E6 78 2D48D6C00 2D9BC8DFE 10FF1E128 25C96BA85 0FB071B8E 0F09B3C9C 1A3E11441 38EDDA03D 79 396B88B2F 0029F4BDB 30D098CAD 0D54D12CB 1D0823F55 2DC53B9AA 11BCF7438 33F6EC091 80 21E03CD65 1A2FE5B92 2851F8445 0251E386C 1468950D8 1A8B39748 001B42236 26CD82DA5 81 2CEA1E6BB 006C97E74 00C2B887D 23461AF95 0E9CB2BD2 0B0EA3022 1FB56A7A3 25A7FA625 82 208FC2A1F 381C5733A 03F11D7E3 07ED6A7B7 1FEC85E09 3D61E0440 356F4B1C3 3756E5042 83 2061E47F0 22EAA0AD3 24796BB65 03C59B4D8 32A75E105 22155381B 23E5F041C 155D2D7F9 84 381AFFB73 21285E400 1F1FE108E 04BF2C90D 3C1A949D9 2854A9B45 001B09322 3A9372CC1 85 058B23433 0904C6684 158CADB9E 11BA4B978 1854368F4 1919ECEA7 147F1FD34 2E228AA3C 86 34857F3DB 2CB44F7BF 111A065D3 1BEAB392E 27F081ED8 3E67D1186 0F6265AC5 27716FAF9 87 38EBB8BF1 32ED6E78F 2B0BA4966 2188282AA 00D49B758 1765BA752 2B50AFDCC 068C82450 88 234F0B406 02FB239CD 15AD61139 2250A5A05 1CD8117E0 0D849163F 268C7A5A6 22A802020 89 2D0FE8D16 0C14E3771 07DE5320C 0640C2762 1CBD9FF4E 37A91986D 2024DA401 164D4A84C 90 3225B4D60 3013B75F2 2A77AE5C5 2C25377EE 03C8DF835 346E80FCB 116B79FA5 356D2B604 91 0D55231FD 247907F31 0CFA0B049 36D069A95 10D4CDE71 1A32544D7 38336885F1 73ECC08D 92 207420EAC 26FCFE182 3FE7B31C6 15B320E13 187AA34A8 1B52253BF 1FA16669D 3725A81A5 93 3C9C7404A 092B77FEB 3B9865B46 349456F61 39B7C6A66 3075EC990 01BE637DF 330897B17 94 1CA4C048D 2B4D50621 2BF917627 3EA2CC5E1 33EC0A1E3 05FE0F747 349553D72 396077301 95 04CEC1C82 1F828DD00 30122C790 1AD8A7895 1CE0912C0 298382F37 2D4D33F06 001364B36 96 37F8BB035 2F0897994 333F5F096 0F28AB363 20036829F 338017E2D 3A5A05D76 0CC02E5E0 97 02FD351E6 03E316288 2FCAEB4F8 1C5A80CE3 3D3AC3FDD 3E456746D 119A5381F 1581C894E 98 1623B3D0F 103224DB0 0FB936BC8 2EED7F082 26C91513A 2F12E4C31 290F3AEF2 392CBFF67 99 02F75DE8F 2E61A834D 02A692866 1F21044A3 2D7881A95 18651EE05 11FE3D308 39EED56DA 100 3A858659E 2F7A87BE0 135FD561D 27B3B651A 05E131CB9 0D5865123 2CD6991E5 3EE6DF705 101 3F3B247E1 32D02B245 16B98A593 1E4CCFF18 0C4A9D285 06D519FE2 023A336CD 1B20E999E 102 3A9E8B49B 239656AD1 3396D1C51 06F4DCF40 15D819D3F 2A3061144 20BD2A33E 2FFB139CD 103 38622F3AF 24BF9BB7F 1D2729010 15877B93A 00376130E7 0FF064887 3505CFD9B 354C366B6 104 2A0AB7033 1AFA65DE1 1198D0AD6 38E80086A 27693D541 3BB26F3D4 39154881C 0E7DD6B6B 105 1B0DE4333 27FE0F6D1 0F00B2888 0BDA322FF 2759B5A4F 0543A2D27 0C36DD1E5 04E9A262D 106 1C7E636BF 000E9C271 2B44F4F30 28255BF77 1CC4D69CE 03F4C57B2 3E926D59B 00AA39BDB 107 1FDE98AE0 0CD076B07 171124FB5 33F098288 1E0B3043E 39731D117 3E7ABC2C8 19CC50279 108 28EE855ED 2A704C371 03288F4B0 3C83E26C2 0A905148B 18C66BB94 1BCC32537 10D71AB44 109 26238A065 0FBD7BCDD 02507CF76 059F69484 3FE0D6F77 2466A50DB 3C07A75B2 2DC0F099E 110 3CDCD6CBE 1446783DA 1626C83F9 2FD4C4DF3 13A59A2D1 2C903D2A3 0FD37F076 0B1039EDD 111 043B07DD7 28D9C2155 2CCEF57A8 34254C1B7 09B933B2F 1FA410127 10BD5E9E6 010EC6389 112 345E8FCAC 226BD7EFA 27341A51C 23854F031 04C297212 044DED8E8 319B3BFB8 37DBBBF57 113 16FBEFA72 1B5EF9484 2DEE7A5BF 097695C12 08AEAD5E8 3DA7C1327 2B81F3E2D 31AFBED32 114 3484086B1 2DFA56B9E 226E8AFE5 285F45484 3E69AC8E1 1CB33645F 2DE53BC30 2F6ED567E 115 1117B5E7D 122A4D471 1AC936544 267010D71 10428CA47 24B72A000 2E27FE185 1E62C1403 116 0B3161E37 038C3DC98 100793647 1A95D8D36 399668787 06C0D4922 25F48AA58 2DFFF1789 117 04FEF7231 381910B63 298783078 30CE5EC1C 29F6F299D 3C34CA770 37BAAB139 3D2069B65 118 18F644052 2051880EC 23ADBF949 04237280A 18304E663 287364EFF 314698D78 149A21E51 119 39E14BBCB 1DBDA9EF4 3ECCAD8D3 1BA3EF99D 26D85CEBF 270547292 0FB3C7826 0131E73D6 120 2DD6F3F93 0FC282088 14A143DDD 0AB840813 0B973037C 29535C9AB 0DF8DA2AC 271CBC095 121 1C1D063F9 3F4EF6DCC 00128D932 145E31F97 0B21590D1 38F1602D8 3AC2EBB74 2320957C5 122 3383C846F 12128F29B 19985CE7D 2834CBBF2 1E1513B3D 364DB5800 33EE3F46C 01A865277 123 0129D260B 238A85BA0 2D81AA924 3917048B6 36F857692 1D2F813C3 0505FB48B 3DC438BC5 124 05E0F8BDC 3D978C1F1 266F83FCA 0E89D715A 01821DEA4 12D9AE517 22F8EAC2C 3C098DA58 125 1575D1CE9 26F291851 3A7BB6D2C 12CC21A3A 2975589B0 39CF607FF 388ABF183 3D3BAAB0B 126 101E5EC7A 0B75BCF3B 13ED25A86 35FC032B6 2F6209FF0 13C7B2041 1F2791466 3A759A6C2 127 1EF89091A 11A653D2C 223FC1F42 2F7B97B31 2CA4EE011 00F68767D 10FE34682 018339212

Sequence Set 2 for segment 1 (hexadecimal format) q\blk A B C D E F G H 0 20A601017 10D0A84DE 0A8C74995 07B9C4C42 23DB99BF9 12114A3F5 25341EDB0 362D37C00 1 1364F32EC 0C4648173 08C12DA0C 19BD8D33A 3F5F0DDA6 24F99C596 026976120 3B40418C7 2 106548078 0A0D98F3C 0AC496588 38CBF2572 22D7DA300 1CCEAF135 356CA0CCF 093983370 3 03A8E3621 2D2042AF5 2AB5CC93B 05A0B2E2E 0B603C09E 117AC5C94 2D9DEA5A0 0BDFF0D89 4 07C4F8A63 3E6F78118 32CCD25F2 1792A7B61 0A8659788 1F9708C04 086AF6E64 040B9CD78 5 2D7EE485A 2C3347A25 3B98E86AF 242706DC3 10EF639AF 2E1B0D6A9 3E9F78BC1 0FB31275F 6 0307936D0 210E15F03 392655B2D 17BE2DE53 3718F9AB8 01A986D24 077BDA4EB 1D670A3A6 7 05A10F7B7 31900ACE0 28DCA8010 2D927ABE5 370B33E05 31E57BCBE 030DC5FE1 093FDB77B 8 092C4FED1 268BF6E42 24576811F 09F2DAA7F 24EFFC8B1 21C205A90 1E7A58A84 048C453EB 9 29F162A99 1F739A8BF 09F684599 1BEC37264 38ED51986 286325300 344FC460A 3907B1161 10 0E4616304 0FABDCD08 0F6D6BE23 1B0E7FEDD 0047DE6C2 36742C006 2D7ABB967 10D5481DF 11 32DD51790 237D6ACFA 2F691197A 16724EA58 149143636 381006EE1 3A78B3FC6 1B1259333 12 1BB0FD4D3 235F10A55 1C7302A27 1148B18E5 04F25FBC8 2A0A8830C 3646DBE59 2F25F8C30 13 0FB38C45B 069DF29E9 00F93771B 3AA35746D 2CAF48FD0 0A42CDD55 19A23CE8F 26318A30F 14 365FBEDAC 27710945F 2AA367D61 05A484318 2563F27D9 2D37D5C00 287D18FBB 3ADB44805 15 3038BC77D 2A45D29EC 156173792 03EC7679E 07577E1A4 1B6A94A74 1D26E5A94 0FD878D5A 16 1F22158E4 3F02A1D37 2767EC03F 1C8CD535A 23DA2E5AB 2D5F25A59 0971AA889 3E78C1846 17 16521E709 12C2DB8FE 3A596C221 1562D5C27 1D9E1F39A 345B96872 30107894E 2797F032D 18 2EC951A24 1ED768F3F 11217930A 39DB44855 36E41B3FC 0F6E48C44 36254C517 14493C673 19 3EA159E72 24ADE96FE 3458C73A6 30674E1FB 242109AF2 24DAF32B6 24B1EDFFE 291CB9D15 20 2AD0E6696 04F4077D9 1BB279A53 38957605B 379B7A6A0 0BAD35616 1285EAE51 37425C7FF 21 083637980 34F2ED66F 282846A88 19D5E40A6 21205942C 27AC551E9 0F3F4C262 0505FB522 22 3E7D64856 1DB0E599E 159120A4B 1FC788139 235C454FB 3CE5B67C8 339EADB32 0F9F7DDC1 23 3956371B8 1D67BE6E5 1EFCF7D53 041A5C363 2E281EB3F 00AF8A1ED 2DE24A56F 1332C0793 24 0818C47A9 1F945634B 105ED3403 1043B5BF4 149702D22 024CBB687 34B01FA8B 1E9F5992F 25 3A6618167 3A0007886 3EDB5756B 2F2FA6FCD 21A5252B8 396FFAD9D 05347B60C 2E0ECA200 26 0D45F89A1 3F9C2C26E 1CBCF809E 3CBE5FCD0 3D2DCF245 14F351A1E 224F5B3FF 2AA6ED34B 27 3BA85ADF8 282005732 3AD7C0223 2E73D1800 23DEA3F46 2275280F6 1586270F9 0CEF4287B 28 07DFE662E 314B74F2F 397BDDC4C 223A8071F 1F5BE3BB4 093BB1F33 0FCA2D129 21B3526A9 29 39FEADC12 0ECE1CD67 206228FAA 38FCCA606 0C5EEE08F 1C1BBDD4E 1459E42ED 11FD64ADF 30 2735FFB20 2AE9B244A 1A5AED974 38FCFD5CB 20310DB81 1C5FC3E24 19FB3BA17 3785BE865 31 24FF6B7EC 010682673 19CB14113 2C8CD3C2A 066725853 02CD0A23B 279B54315 0CD571063 32 015E28584 30B497250 127E9B2E1 2C675E959 05F442DEE 394AEF6E2 079E5C840 12703D619 33 3CE4B1266 35270B10F 03549C4B3 3B3E6C375 1DBEF270E 0042C9737 049522EC6 24961653E 34 34176CD90 2B5E9EAE1 1C95E3C2B 1EF541D4D 26D1450E6 3B9D895AB 1B0084349 104B6B428 35 07A813421 2B39EAADC 33553571C 0F8046CDF 2CF6A7F23 0AE3BE8C8 308BFF531 2DBC0F9E3 36 168276972 2CF41744F 3CF2512E0 0F8B68ABC 2E609F6AF 04E03AC8C 0F9B66F49 3AFE28736 37 03456021F 1982574F3 0BB2B3F49 15A4A1CDE 15487D58E 2907C9ABB 15C0D2D73 28D8CFEC3 38 3D3FD677C 33AF2628F 3D217FDCF 30027E85F 0A463F23B 2F2AE8324 1D1E945E0 2EB355D28 39 3BCAF9076 3A7D2FF70 3C541F38B 249BD8A94 287BC4833 141391EB7 05B6443D0 2FEACC5E7 40 275F118FA 3A96B346D 00713CDE 502F394A28 3EBB1D18D 1BE7A9FD D223C53C A12BF040F77 41 1161DE4F5 0544F9DB7 230847E45 322AF4E17 26944A0B4 3299F1420 1C9405B8E 2DBABD4CE 42 33165C531 268FE9B9B 081A914B4 39100772B 27DBF03E9 3E3A18AB0 13F2D2B83 2CEEE5FF4 43 275F97006 0A578F2EF 16CEE7EC8 38A5B0084 00DC9A1F5 1B88CFA3D 0D8B0B8EF 29FC4CCF2 44 04BBE4F2C 1546C3988 237105A43 339042B36 3A5DEBE2B 1BD09449D 38EFF588B 1CDD3A6C0 45 002E32D38 1E85D3125 3F51120D7 00420ED63 3384713AF 1D941BD34 2B39EA9CF 05B6D9E94 46 2B3100F7B 335EDB2E6 1AC8C8EE 4337FF7139 0672D7995 38A54856E 0124753F2 3A3560851 47 046207CE9 0FE1BC312 09BA5B289 39376EF2B 33F826C2C 2F6531496 3933B8616 23125B50F 48 3E5849C45 01EEDB390 141D9A024 2DE07E565 1813D12BB 36DB8D404 0E8A272AB 3A66B71AD 49 1A2A88A4C 3F0C9B4DB 266CFBDF9 163420CA5 281ABBE99 347710295 3AC051848 3C53CB875 50 16F795184 3466F1FFA 1F433B456 1DDF13810 25F58CF69 1DD6CFE4E 10A236FDF 12AE697ED 51 1C8D17F4F 07C43B7D1 1C8DAD395 28F6C112E 3A336ADB3 0EB6889AB 2783A6A1F 2CDA40458 52 16044624E 252AA04B2 11484E85C 07F5024B7 286E3A67F 2EE6BACE4 277F1F864 22F3CF57D 53 2D1A3F4CF 0EEB6DEC1 30CD76F42 20403D1AC 3A72EF9D6 1DAAF2A39 03AB76CE0 0A2856267 54 0FA2A786B 38273EDF2 228A45016 0309DF52D 093BDAEDC 1B11E9300 1DA9C5324 03365EB1E 55 24DCFDC06 11CF909D6 2FF693F4C 366338F1F 22E641569 0ACA60D55 32D1B009E 035472E09 56 17F5D6662 062FCF913 35B211035 21ACE73FB 3B4148706 2D0CD106F 2CAB457A4 103E1E49B 57 21859E8DA 2F1E3B3D9 1F1014BE2 062A3DEB5 354C00786 05A8982D4 35A758943 346EBA72A 58 00CB49E5F 211B1034A 3A5D2DAF1 21D3F3EB0 24B2D1150 1097C3685 2AA36710E 0E5DC1308 59 24C8401BE 217B1F994 1FB9664A8 3D5057708 05A506088 1314842B9 3C8657064 14B1FA77F 60 2AD698E2E 3C129D1F6 2C744FF4E 1C1C052F8 18C38A9FE 252168A10 2EB68D098 3A001CBD2 61 2AF71324C 2BF41D408 0FC498E18 149A1A407 0FDC2C4A3 19D00C4A1 0F6B0DD29 268CF8E86 62 19F4D82A5 342C73FD5 0F5AEEDE7 21A2A8953 15ADB7A94 11DBE038D 0A5B6634A 0FA382B77 63 0A5985778 35AC3032D 35691C85D 2829D55EE 04A3FBD8C 2C85BFA8E 0F459B864 3E878F0BC 64 100785EB0 054D4CE18 1BF657A8E 101DC64EF 0B4E3032A 24ECFD9C2 00C98BE0A 2A1F82444 65 300E8B09C 31A079FB3 0C41DEC5F 216CCFE4D 226C5A693 3C31A41DD 3A019974C 23B64EAFC 66 249BDC80F 0316ED79E 1E42B5567 0CFF04A4B 310678543 34D986980 1E3195429 280966E65 67 359A72B64 186A3999D 065825DDF 2D28E6000 10964C1E1 1468C970E 34C8B606A 33CC94DB1 68 370B29C05 12841A9E8 2147E7160 1835345EE 06DB43F37 33854A725 065E6614C 151E2D7B1 69 0EAADDB27 004EC6DDD 30AA39B8B 2AEB34AD4 2A13D6649 00EC67B83 1176417CE 0E3683151 70 0832BA87B 3B67515B9 0FD34BC87 1688F83CB 370B52AD5 3A2CD6F3F 3343BF461 37BD48546 71 16EA2751C 1799D9C42 24055CEC9 226A907D4 133C68F80 22CA03BF0 05F723395 2D35008AF 72 122A5C67D 3E46230BC 09F475BA9 15B4B6754 11DE75C50 28C17544F 1D85FAB8D 0D5AD9537 73 105497CD9 3D405F487 05535D737 06952087B 1C4744AF4 3E0EF881C 3CED3D1BB 1D91157CE 74 1D276153D 14604EA77 1661FB979 3BAC5E9FB 089F41406 283154122 2AFDCE892 1FD5E0810 75 2A620F4C2 0DE484180 2D05E6458 3E6D15A27 0A92FF0B7 2CBF7BF53 25A2F28FA 19A10CE02 76 3A77B1FBE 2B262F810 2BEEA0F46 39706BBA2 09257163F 1026D5D74 2E2483EBF 1D6527C1E 77 0DC1EBA02 383C59C77 28C7ED115 06FED31D4 16F610DC3 000890B82 2FAD16A3A 35C9AD95F 78 3E5C1EBE2 3C65A7691 2394005B6 251B1BB49 1F42BFA23 0E8608C07 24666F55C 11A5214DF 79 323E882C5 2DBFF5E13 3638BC43F 38CC5CBB5 1DBF783FB 0499418C7 2285E5A40 1A61D17E7 80 1E508F19D 0CF345F97 0E5648601 0A0951DF3 1194EE717 0A6C0B374 03C4E19EC 06F725799 81 0B54F4AEF 186A12343 04C4A6006 27C2CC0E9 3973075A1 392C5EEB7 3933C99B1 005F98CB2 82 021B6635A 3764D0696 20942B266 0155C4EDD 3FDBF7497 37356D442 374F3DB06 2718357FE 83 120DF6F80 0E41F376A 03544C7B2 2D6795EFD 29E8811F1 1B3EFD388 01CA4C48D 2067E8033 84 07703D649 35221AB50 22141A0D7 268061A59 2D9192B05 3834711FF 3A07258C0 36253B5AA 85 1C4A564C1 26804247A 16A4DB29D 0BEF93C88 37A3EAB6C 25547B136 3FC935878 250E3BF1C 86 17049BB43 0D6426761 2BF3A471E 1665820E9 14412A13D 30D5744B0 2ECE5CAE6 01395189C 87 29615B890 0A2C5A664 216DA64F4 3D4AA9D2C 07B98342C 2603F0D76 0574BDFA8 3F9B35D5D 88 3A0414B22 0A8BE885E 155C220E4 2D3B17AA6 3017E1B48 26508C6C8 3FF25EC63 240EFF072 89 2ACD810E3 0468D7943 2A4108121 1F2E8E67F 3AB446179 33325CA24 3006DD3A5 1A33F3A2C 90 2B038BAF7 070660C4E 30953C7B7 3E7375D04 1D6A39944 001BE5C8D 199A89253 0A82087BB 91 03BF7C836 2CBF9FC48 38EAB1C98 11C303993 3D748807F 1EBD41D1 7351085EF2 1055B94D3 92 116E0BE61 17BC8C403 31BD1EAA 21CF87C049 2A41CC04D 3883EFEC1 3971BBBE2 190CAE3B7 93 172799BB5 3301DB193 2480B569B 34DBEFE9C 003287827 38DAEA1CB 0B0E25BB4 1972B37E3 94 3EF1F9EF4 189D8C3E0 1941998D3 259838BC9 28E545988 33BFC60D8 3572B10F3 197913B6B 95 24CF96D66 285347801 22BC70E5E 394231BCC 077583F4E 0364420AF 278FBF5CB 3850AFC8B 96 1B38C4A50 04439E0B5 3A7BEB18B 3003A36CD 329D5A2B6 1BB123AFA 049C2CC94 0F604D1DC 97 28D47EF33 24CF66B6B 24B716FA9 34ED7F6BB 186AE44B4 1380D0726 1CC51324E 16BA74F62 98 04422E60A 3424BA16C 3FF1B39DD 1A1E658F7 33457317D 14E822151 3EC02F279 28593D11D 99 0F2DF0912 21BBFA838 32D634EBF 2061148FD 09A565B74 2BCE43 0B734DAAD9FA 228ADAFE5 100 2D7EE0544 25D57B7CA 0FADAF20D 19B4F6444 3A75DF1C1 0AD3EDD56 0A4D61EEA 28C1262A5 101 1B6AEE253 0BFE02772 24AB19547 186A377A5 03089B4E8 128955F60 3A8DA9AC8 2931648B3 102 21BE0200F 00F34B4F5 34FF3261B 1A0E27AED 0A821AEFB 21B0BA404 106A644A4 1734EBB33 103 201FBED73 0592E9D86 053D87C9D 3CAFC7479 22F1BA3FA 3DB25DD15 31D468990 22FF2B539 104 06C77404E 18AE64252 3963D899A 37179C03C 0FD2E3D04 191E64DBB 380B841FB 368E1DEAA 105 3A561759B 156243DE8 04325D217 33993D0B0 0CEAC2109 002242D1B 33C1D9F5E 1EC4195D3 106 17D7A9B74 1F44ABA75 17B572FE3 096008B9B 1F1E00AAE 05489F7A1 17A4C131D 1C018E923 107 0A4ACCEC8 1F294A3 0D19CAEE 64E002787A 1B03EB323 8D27C10F6 261C9E656A0 3F73609F0 108 1E0E3C802 1B52D12AA 2F4E003B7 23BA7A6F1 3CAA0998A 32E96C916 168EFA1EE 28147EE33 109 10EC9799E 215D9302B 176BB6639 003D5E371 12FE4ADB3 3106B64E2 001D9C28E 0F39059DC 110 31570792D 2260D7FEF 1AC830374 118FE7C78 08F982159 23BB2B13A 2C7944305 376396F3C 111 2D340540B 272E94D06 097C70995 0E70DDADA 1DBD644E5 341A72A58 01CBF5334 2C7999AF9 112 3FF17764D 0701DFAD3 146BDBB97 229D2D7F0 03C5DA21D 3A5916EC7 2390AC01D 197D64233 113 3E9759D5A 00B237425 0B7E646B9 190CB4D16 2646AA1D4 1A373103D 337E5EFB1 0199DE4A1 114 3FD5ADE8A 26B843860 0A2D0AA7B 3C351E07F 1B25376AE 05C553CDD 1DBC3F38D 019823A2A 115 30FF187114 112F9D7A1 1AE977517 3760AF555 004F86368 3700975C2 0518029DE 032427D9B 116 3A86D49BB 057E649D8 2FDE33D7E 31254217C 30E05CE12 10BCC1CD7 1889C5139 38A163ECF 117 2610F5174 02A7ACB27 208B84FF0 14609CA80 0F3526318 38EBC7384 287C57BAA 279661A9C 118 014F6D77B 1036B3D2C 294F1999A 33A059187 26CCE0507 180DF3129 00A6CAE22 2AC0F23A2 119 347C62997 1912A710D 22600531F 2F54BBEBB 0A2D90305 1BBEE20E4 0AF79997E 2376F3D0F 120 04484EB82 181977944 1C1CC26932 27ECAB0F 23F32982B 19E2F290C 1BA2300F8 0EFB06247 121 0EC048AD8 3B2168495 34FC02DA1 2C0CDEF52 0553CA222 25DFA4581 29CF66B6B 0AB9C21CD 122 2AF502148 3B00632F9 387CDC4BF 3F8B9F716 19084CD65 0354918C7 39D1FD9AA 0F5ABDB77 123 2C6E2557A 3E8A19D6B 3E6756A28 237E6E5BF 24CA57004 1D52401AD 0237F1D80 0FB2B335D 124 228F4B540 07532BF5D 101F67F52 29D8598EE 0421A0E23 2D89C2AFF 0963D2F3B 24C472A63 125 0CF3598E8 196A40BD2 00E63B26D 088A0BFCA 1C78E9016 03835236C 33071A836 3949DC586 126 3E815D747 1588D4E96 073C8D44A 303281AE4 095D31EC8 1F10F69DC 200F057D8 1F270128F 127 34F9ACB6B 384870FF1 257A863DE 34B36BA0F 3FA3D216B 27425041B 0E0DD0BAD 2E95AD35D

Sequence Set 3 for segment 2 (hexadecimal format) q\blk A B C D E F G H 0 13F99E8EC 3CF776C2A 3300A482C 0B2BF4791 17BECDFE8 35998C6D4 05F8CB75C 259B90F0B 1 116913829 05188F2A4 2DB0A8D00 2F770FE4A 185BE5E33 0F039A076 212F3F82C 116635F29 2 004EE1EC6 18EF4FDD9 26080900E 1A63FB8A7 1DAA917D4 0E6716114 02690646D 0CC94AD36 3 06D4FF377 2716E8A54 16A172008 08750246F 393045CCB 1DBCCDE43 114A0CAD6 181690377 4 3DC4EF347 1F53452FC 01584B5D3 11D96034F 1FA62568E 11974FACA 191BE154D 397C9D440 5 05A1B6650 29835ADAD 2F6DDABE4 0976A607B 11BA92926 2456B1943 3E3FD608B 095E7584B 6 00CC66282 0560BE767 21EBAA7C6 2D8E9ACE3 198A9E28 505F3E73DD 13DA751A2 176B75E43 7 03D08ADC1 2254606FC 3C695D892 1DA9E0280 2CD4FF589 19B78A5A4 0CE67A7C6 12535A61C 8 0984647CF 0822BA46B 3EB2BC076 212596F54 11CC2E64E 120BADF9F 0DA72CEDE 30D0E106F 9 083CE5726 1F05DA925 169D93EF6 1FCADF3D3 08A5CF0B C317C8508F 19BDCCFE7 0FACE3631 10 27583A466 1CB1634D5 03C7849F7 38C6CED00 1161C173A 15A645D3E 281A7ED92 076ADA797 11 33BA1AE8F 187F578EE 32473D69A 2458B703B 267E590710 F317883B 3E7DEDBF1 3B9859BA7 12 0322609A3 20C4C957C 3FD638746 3FB716D79 36BD0CF1C 333B11B8F 0027ED1F2 3E7471BF3 13 3529922B1 0ECECBE04 1980B9B9E 38D60363F 18904BCED 108E3E5F1 34B95C446 338F51DAC 14 21FD50527 0EA2F7A31 1E294A159 114734A02 120B90BF3 3F3617C92 0129071E2 106640936 15 2B59354BB 275BF9761 39C6FF332 2004B3902 053F9DCB0 19D79A902 2B3125038 20649B43E 16 03A8A7A2B 091AE6721 18651FD9E 1F5415ECD 1B38EA62E 07FB0F422 3EB58896B 077FE4C7C 17 06A13CB38 340099B18 2AE6D6385 1669631F9 28E51A676 19A023391 261855F39 3E518F0BC 18 2A88F831B 09D295831 294C468DF 1477F0A13 37725C6EB 00E7DB222 27D610157 349A8FAB6 19 163E1C44D 3F98B6F4A 1805538DD 01EE3DB4A 22AA1797E 27568753E 16090F219 2C9838C01 20 34B0543DC 121B8EA82 00873B4A0 220FE7C05 2EDBEAE34 1104BDB93 0711E8C0E 0E1C107BD 21 226183AFF 15643DE71 04A4CDECB 2E67FDF8A 26D2A6D40 25E7695F1 1A99778F5 20FE0C1A3 22 0F7EAC09D 12BB72B2A 182E44301 2962EB85A 3477C1B69 3E3CF56F7 29C9D0006 39788600C 23 31084BEB5 1DC90E345 391736CC1 3C8292AE1 38A0D515C 3977012F6 25D1F6055 36A7D3F8B 24 229D3ABAC 1044BA05F 0C391B88A 0636A90A6 0B14322AB 21ADC33E4 2DC1A3BFE 0D7FF6D1F 25 33C85B393 37BFA31B6 134F872F0 0C5EA36E1 286956ED1 1632092FA 382B4BB10 23DC3EF14 26 38E8B9BF6 0A0CE666B 207D98054 23FF360AD 121BFDA4 E347D442FD 242922C07 23C6E4115 27 263EA8516 36138BD6A 0ED9C55E7 3F0937876 03232BC24 18E5FFF26 3530CF206 3981B7414 28 1D9AC2E79 051B220E9 3F3B09EC8 0D3F6C366 0201A7CB 93D5477092 22185FF9F 105AA5348 29 208D85694 22104E7C5 14BCFD3DD 3592DF665 1F4EC3265 24358076A 2D20A8000 017F2D489 30 36B3A9A2C 3F8E0F162 13ACDCCF2 16951F727 271E73555 1B3EDCDE7 162B45352 1CAFA635A 31 2D30FE705 3EC9BFC8D 1B10F8349 34F973F31 1CA96A349 1A28B4543 105367CE6 2DFAB0AE7 32 21D93EB5A 0E49D6211 3C6FCF774 09F44CACF 2D8CD2BEA 037DDAD3D 3BBD06D1D 39CBB996F 33 159B1F948 0183E8DCD 3A484866C 21F8DF1A5 219A58193 2D1B3C399 2275F19BA 0EFF4C612 34 22EB93A82 15047E272 15428D77B 38FFC612E 20609BE54 3226C8254 3E5568DB2 159284EED 35 34529707C 2E84585F4 20DFFB4C5 28288AA00 10EFC1E07 3C4D211FC 379087C3F 25716A7DD 36 20106354F 22AEB9FD7 3A6BAC67D 3126294C6 0FBC874AC 2DFE5675A 391B1DDAA 06BAA74D8 37 348F83105 2E44BF3C2 3D9F6F454 20746A30E 08D183029 35C6BFEA7 2729B552B 263BB2EBD 38 202D7F08F 0DBE1C144 132F4EC09 184CD9B93 2596F5884 2A55B8217 2BEAE02D8 235A19A43 39 2DDE3FF5F 23932555C 001ED92D7 22FCD3D60 2C0737593 0B27E62FF 0693CFBDC 284D5B33F 40 1DB9AB8E9 2995EE0A1 1ACFE9892 0D41BCB9D 2E3806507 25CCD5D60 3536DF04C 0BB0A5E3B 41 3FFD4DD82 3E69CC1C1 2BC30FB74 3462F70FC 164FAE762 09B83F8AD 1DF593F3C 2DB478034 42 16E24E9B6 0A9FCFBD2 3A018544C 1ED8E2855 0037681E4 05950E1F8 1107DA097 377A25C65 43 03C9318B8 0070A7749 0D58708C2 0CA2808C4 219E02554 39315B2F2 2E089B00F 302E135C7 44 04DC211E8 1DD20A505 21A50649F 2CA438C04 39CAD66AE 2E1BD969F 002748760 069924211 45 2E84BCF09 226F5D43C 37BE7EB10 07CDC854A 06FB50D48 08966435B 01BA5E5D2 1D34057FA 46 2D8DFD565 0A30D633F 33F93B7C6 0B330E9D2 0E659B262 130669024 19A9D5F64 38059132D 47 17E4777AE 1308F9046 2F7C0483E 1859E0943 0982C9101 05453D92C 001F53877 388A571AB 48 00D29CC63 0A6D3BDED 1CA44D2AF 388C002CA 2A3D70EF7 2DD3F5A6F 39FEAF0B6 11DFE385F 49 3E3A6CEC4 122F5E8BE 360B96301 0632CF244 2E8985A9F 0FD256C87 0449C29D4 26B713C90 50 238150687 3D96F7F7B 0091E6D18 21802352A 02F7A466E 0A5BB6648 350DA85DB 1C97F4544 51 306BA76DE 379A88697 3F0DA31E1 0EBF48C71 27F8A46EB 3F75A19F6 277002F97 275B43715 52 24D946CC1 38DF102DC 3EFE1F5B3 3C316E148 2735B20CF 0688E430F 0316DC923 24919BEA1 53 0EEAF72D2 3C7248573 1087A7BD6 08EDA9BF6 2B5D97BF4 26733DC60 1190D275B 2EC7ABD30 54 37C6AB63E 2FFC9C790 02CAA37A7 1B34A3F84 0022CD5F6 3ECF891BF 193D545E2 0172C674E 55 0848A41C3 1D8150EE7 3D8A8549A 2595F707B 00640B276 2D44EBDAE 1CAF37453 377EF590A 56 16B7A5F7D 1F5AA7998 382300A8B 218916E53 19D00E728 1EDA11790 0BBDEF9C4 1DEB15796 57 3EFB3368D 392AA88AD 29CF3CACD 03F59ED8A 1042098CA 1721B8F3A 2B5DE9312 0CB5E6F23 58 1A8B0FB9E 3FBC09C8B 3D7F3E248 034C9BCB5 1BDD89300 3392476C0 0C10AED4B 23BECA42A 59 0EBC749B6 33453C7F6 304735F5C 334628143 1DAF6E7A9 11BB9C393 226C5E4FF 170372039 60 3F9262CBC 0693308C8 21B563415 09BDCC403 0112C79D4 2DA9F1134 36AA1CD7D 3A1608BFC 61 218AC590E 0FACC734D 02132C9A3 27087557E 076B3ECE7 2EA16BA3D 0E1D452F1 3F70B027A 62 004F9DC68 25BE3AD9C 2CBD3C07B 3F9DECD71 3E771E15A 11FF2F24D 2AEA5DF67 1E838955D 63 3A04BC376 1D19254F1 00F92DD2B 3C57484F3 181D0973E 319F9CEEA 053ADEEDB 1A3C22150 64 0F78BA6BC 2DFE0E681 3035BD77D 0A0FFD148 275F50066 2246E9053 27B2BF3E9 1741894F8 65 1ACCD0F79 22F0AEA4F 32796ADB5 134A4A876 183D989E3 204C4BF97 22300E86F 3F18744A3 66 3EB6E19EF 1B24EAB88 2E318F810 3F07B618E 26B4C0087 31CC10EA8 169E1B650 017DF88ED 67 2BD9E8FED 0AB104122 30C9D81A0 09EA73C7F 141357B1D 000A7DB48 1DD06FD41 0AFA8EF72 68 19CA5678F 28A89AA43 1DB945917 262AF69C3 3145A4473 3742CBFF5 1BCD965E9 1B0E7FC84 69 077838B25 2BF7032F8 23DC2E014 028544277 37B411B5F 392FF6CDC 1D66F2BE9 011372DA0 70 39596216C 05A651F63 183A6AE26 0D1FCA203 0FF6F0D22 2FEB8364B 05A438ED8 32D045F13 71 3711AD513 290B237FF 20E2A9B26 0072A0234 2F1ABBE93 19B505378 354ED915D 0C359F272 72 1D7786BA4 1CCDF053A 36828B333 0ED27AFB6 241326FC4 1A9C37F8B 0A9C3C372 05937E898 73 1053B9CDB 040B97B1D 0D4FF481D 23AD465A8 2906EBDE2 0C4F6C09D 2189C5FEA 2D90D305A 74 39073122B 35FEAA236 1B38B7A90 2E02AB9F7 219FEEA0A 36B3B2EF8 39A3F4C8B 15A42C9DD 75 2C6326A9E 33F7536C1 2A120075F 37030CAA0 3A011882C 098C8504E 3B92D756B 175811CF9 76 38A0F736B 2BD9E9C32 3B989715A 2A646ADF4 2D02FE38C 11AC7E9E6 3F5464862 0F382B0D8 77 26897D80C 145B21D3E 143F5E320 30549707E 28126710C 122CA92BE 3AF47270C 0B544128F 78 00E931208 2E1E75EAA 374C36E5F 21724DFC5 1DFCD2028 1B3FF774E 3A826A68B 1781CDCA4 79 0C3D7268D 0B7A26BF9 1587CE5CD 1D04E1E60 36240007D 1AC403449 0417F9622 02B9F8BED 80 1B569F488 08A3F3A46 377F03A18 2DE416045 1ED96E381 33F4F16DC 2C8DAAE4F 33E384AC7 81 13F709786 02A4E32CB 14C7F849E 09EA16987 06C849EA4 219E4B995 243CB7F07 253513BC6 82 09B83FDF2 119D60439 278290BFF 2483E6F2C 0EDEC175D 242A669C1 3EB639EF0 31EBB4CA0 83 22CAEF0E4 0B2FCDED0 19BA79607 343F81C7B 289AA213E 358AC9FFA 23956ADA1 00BC725E7 84 1186F95E3 2F95F4048 3CFBF41E2 1D1E4BE96 26B38BA65 2F715E590 2235C0029 2C89AF93F 85 33437ED6C 12F14DB69 2E70F5611 183752704 142BC8B34 3B90ECD86 1C11EB49 31022D4782 86 248457F60 05B9A28A5 0A2A5DD56 16002D9E7 34C87FB16 2E32BAE0C 21065BD64 1CCE92BB0 87 1DCE3941A 1D940ACE3 30D331B98 3D5A3BAB6 119791607 10FB0D788 2C78E9015 100B598E4 88 39C0BC811 1B886594E 27AF50073 2DCEA05E6 0805EDCA9 3A5989B08 18AD24255 1683B7CF2 89 186A3D233 09E8B95DA 1ED9F3DB E1B19A74F8 356CA7443 316C9FBE9 3F8A3162A 3A0BC11CC 90 02F039B63 2F02D3E75 0F5B5E89E 3D062255C 222C6AA4E 25DEA06FB 39488C071 139318BFB 91 27B5B6EE8 22154E0BD 3FF7729F1 1052B1947 3D477BF2B 3EDB6745A 1B30CF849 030F84AF4 92 27B2D40BC 01EE5E9B6 24B0ACF84 3370F65E0 067D8DFA9 1C01B9327 26FF8FDB5 3809C0CA6 93 11F581193 07B9B7A7D 1CA56B4A3 3D088CC6C 11D52C38A 344760F0A 3D3AA336D 0118CBD93 94 096990784 2960D1672 3BFD7D847 2BC297EEE 32168CF28 3912FFF6C 08ED9BAB1 34452C6E5 95 02CD48DC2 186403849 24C6EE1EA 12ED5268A 2718C00E9 27E8F18CF 145913E2D 0B09009BB 96 06B97DD08 2880C9B96 37EB87E03 14C4ED01D 17041E5DC 347A412CB 088CE591B 0BE926B22 97 116250DF7 1745B4329 1102B7093 1CA549C5A 25244AB6C 374E0F19B 274F76015 0FB738F16 98 12841B9E9 1F9C4AEEB 1445F0C98 39FFB6307 02AB688E7 0FD8B499E 28D533072 138F162EA 99 22BD9525E 2030E58C6 25F2CD033 157D93437 1442E92D2 3D6EE9DF3 3CA5B469D 0588A0FAE 100 0FDEC177D 2606157BE 2224E556C 006F33897 0F830DE1B 3C3F9C1D8 2AF576923 0D4173E27 101 376EF82C2 30E3C582E 0A82DE29A 1B8D454D9 079ACE6D9 2579984C6 392F28400 24CEAEDF1 102 1CD4AA9D2 1DD6F4DA5 3485B7150 105DE02F9 22168E0FA 24F48AA6C 003771A39 306890843 103 1F8303786 2C981AAE4 0819F22E9 0A1D88D55 3B4C012FD 0214CDF52 19DF3BE8F 02364E19A 104 1364A15C0 16E9F9961 17E598810 2654E5A2C 09B43C7C8 3A5E2AF45 14FC71E26 2B4BA69F4 105 12E128BEF 19166342E 04A1404B7 283D17B66 014836F64 13BE0B4B5 2F8583C08 2B19A7FB4 106 19F83FDE2 361D25170 36354011B 3FF4EC74B 1B2128FF9 0C849EB1B 096B991D8 1CA7A74AA 107 32E0BEF35 11A61714D 34C56D40B 0742C52FE 00ED2F1C4 3997FC7B7 06E414374 180DCD64F 108 18399ED59 224E6C2FF 3450F1BB 727A1CA959 21B5E00F8 13B67DAE8 0B14C022E 0E41BBEE2 109 318D94D05 2EBB53B17 331C3E6F4 0FBCD71ED 380FF18B8 3E3C75B26 0E0088A18 17553D2A2 110 37AC7E5D5 27C9EADFA 3FC47B5E4 38699BB57 1564F8B27 3579C7FEB 13401BD88 0DB519DE0 111 0FF4D6F22 3C84242F3 2DEAE40AD 305F320A5 244CB97B0 0892DA905 3F09D5CB5 332E7DB02 112 31479E580 1B6AD13E0 16A1CF9E2 33A0A119A 1AC8388E9 3D4105F37 226501835 27AF1310F 113 1CBDAFE39 3E5A30C1C 236E9A029 063430D97 0CD91A825 02F335D7E 1989FE0BE 13C4E2A20 114 10B393370 33CB79316 2CEB44FC0 236019420 248F95ACB 35034B6F0 365691771 34A8FBCB6 115 25463FC5F 082FC0ED2 038ACE1CC 3E959B49D 21B8C04F5 08633F3A0 3A5D18159 12B3EC4C7 116 167B32C3E 06FF88387 34C3F468B 3239005B2 121C913AF 21C90CE16 28B54D557 3811CB0A9 117 221BD0503 0AF619499 21F8D40C1 1B3DA7AEE 3FA2E3B05 348466C50 10F12A28D 0E70B26AB 118 1D79A57C5 315D2460F 1402B8222 28DC66FEA 1BCF748F9 2AD5D4227 0094D2CAD 25EA22A58 119 062B39CFB 310E8818D 0F2D0A235 3F6468866 33F86F342 39CAB5BBC 2E7D6A8BF 3E9218162 120 2FCDEA0E0 1BDD766A4 2827B99BB 0B5F04CC9 1C9E02A9A 1A6675ED4 033497A06 07D4ADD44 121 3CD46CD9D 311A64A85 24DDFE6FF 341106FE5 0D0613CDA 0E9276056 178ACC4F8 23DEA3CB0 122 2762D6A40 306FE3843 1402589C8 382B07654 160BA3DEA 3815854C8 273960105 2076A15E5 123 10593A744 1562487F6 0C38617B4 2CA68266A 071C4BF93 2593F0BDC 1562436E5 199BEEA49 124 35B8C7503 278F57EAA 34A8040611 9C657A7438 57347103FA C276280707 BED4E32 F20F45E 125 34994C46C 106B994991 AF24D8501 1AD795D319 288BFE9136 0C1B963B5 D8DBC0 2554E72D6 126 22D7095A4 34B70502A3 F0CB27D20 4FC214E624C 0B800503D6 F4DC81432 A099E26 300D70E 127 21C33416F 18B8946953 AC06261435 37CF60100A20 A8B81CD10 BAF5394DF 1DC009 25851ED

where blk denotes a subblock.
 12. The apparatus according to claim 11, wherein the first or second sequence is a Secondary Advanced Preamble (SA-Preamble) sequence.
 13. The apparatus according to claim 12, wherein the modulation sequence is located on subcarriers given by the following equation, ${SAPreambleCarrierSet}_{n} = {n + {3 \cdot k} + {40 \cdot \frac{N_{SAP}}{144}} + \left\lfloor \frac{2 \cdot k}{N_{SAP}} \right\rfloor}$ where n denotes an index of an SA-Preamble carrier set, indicating a segment Identifier (ID) ranging from 0 to 2, N_(SAP) denotes 144, 288 or 576, and k is an integer ranging from 0 to N_(SAP)−1.
 14. The apparatus according to claim 13, wherein the first or second sequence indicates information about a cell ID, IDcell according to the following equation, IDcell=256×n+Idx where n is an index of an SA-Preamble carrier set, indicating a segment ID ranging from 0 to 2, and Idx is an integer ranging from 0 to
 255. 15. The apparatus according to claim 11, wherein the modulation sequence is transmitted through a plurality of antennas, the modulation sequence being interleaved across the plurality of antennas on a subblock basis.
 16. An apparatus used for receiving a sequence in a wireless communication system, the apparatus comprising: a Radio Frequency (RF) module configured to receive a modulation sequence via an Orthogonal Frequency Division Multiple Access (OFDMA) symbol from a transmitter, wherein the modulation sequence is obtained from subblocks of a first sequence or a second sequence, and the second sequence is obtained from repetition of the first sequence in a same order, wherein the modulation sequence is obtained by converting element X_(i) ^((q)) of each subblock into two Quadrature Phase Shift Keying (QPSK) symbols v_(2i) ^((q)) and v_(2i+1) ^((q)) by using the following equation: $v_{2i}^{(q)} = {\exp\left( {j\frac{\pi}{2}\left( {{2 \cdot b_{i,0}^{(q)}} + b_{i,1}^{(q)}} \right)} \right)}$ $v_{{2i} + 1}^{(q)} = {\exp\left( {j\frac{\pi}{2}\left( {{2 \cdot b_{i,2}^{(q)}} + b_{i,3}^{(q)}} \right)} \right)}$ where X_(i) ^((q))=2³·b_(i,0) ^((q))+2²·b_(i,1) ^((q))+2¹·b_(i,2) ^((q))+2⁰·b_(i,3) ⁽¹⁾, i is an integer from 0 to 8, and q is a sequence index, wherein the modulation sequence is mapped to a plurality of subcarriers in the OFDMA symbol, and wherein the first sequence is one of the sequences in Sequence Set 1, Sequence Set 2, and Sequence Set 3, given as follows: Sequence Set 1 for segment 0 (hexadecimal format) q\blk A B C D E F G H 0 314C8648F1 8BC23543 06361E65427 C552A2D 3A7C69A77 011B2937427 7D31A46 14B032757 1 281E845591 A0CDDF7E 2473A5D5B2 C6439AB8 1CA9304C1 0AC3BECD0 34122C7F 525362F596 2 00538AC773 8F9CBBC6 04DBCCB40 33CDC6E42 181114BE40 766079FA2D D2F5450 13E0508B2 3 3BE4056D12 C7953467 0E5F0DE660 3C9B2E7D 1857FD2E31 5A276D4F21 0F282AF 27CE61310 4 3DBAAE31E 254AE8A85 168B63A640 5FDF74FB 3948B68563 3656C528179 9C9BA10 04E0B673 5 177CE8FBC 210EE7F09 397CD65510 1D4A1A10 1730F90490 67D89EA93A C1410773 D7AD6888 6 3B78215A1 17F921D66 385006FDC 011432C9D 24ED16EA6 0A54922F102 067E65D 0FEC2128D 7 01FF4E1722 A704C742 3A58705E1 3F3F66CD2 07CA4C462 1854C8AA30 3F576092 06A989824 8 1A5B7278E 1630D0D82 3001EF613 34CCF51A1 2120C250A 06893FA2D1 56073692 07178CFA7 9 032E319062 DD318EAA 1DE55B14D 0EF4B6FB3 27DED0610 1BC8440D30 ED86BF8D 14FAFDE2C 10 174725FFD 0D2FB1732 124470F562 92D9912B 1571408A7 227197AE9 2430BC57 60B67304E0 11 1F1DCD669 293DD1701 0C34F1B84 28496EE51 3DC41327F 071C06523 28E1657B 602588EFDA 12 22E4AA041 3810362F1 1955F1DE7 0D6D2F8BE 11F31358E 3E8278812 1F4E60111 119BDA927 13 14300B522 152E6D482 168DF6E43 0740B7AE0 14FE7DCDD 0FA092626 23697615A 1F1331EB8 14 12C65ED00 317643CD7 2C637A415 15E3E5185 0F5CBB9E0 23290B156 26F37EFE8 1AA174793 15 1DD6453F0 032C4BD39 082659BD5 32005E691 224E55582 3A9615A8D 1BED03424 28E6A9CED 16 068AE7EE9 16F724910 3803DD9BD 2A31A2FFB 010BF5237 33CB067E6 0280C28B7 184417B94 17 1D651280A 2C7BCF443 17324EFB0 236E5C411 381215183 2F076E64E 0A6F2EE74 3DA4196B7 18 27341650F 18520099C 09AC91114 000A5F48B 30AB4B9B6 2D0DB0DE6 1CF57978A 2D424406B 19 3A01E2FB2 0DF5B257B 019D1063A 0EA7DCDDB 242D96605 2DA675F15 1DEC54193 386341C16 20 2DDFAEB05 21D0A1700 0FA09BB78 17DA7F8BB 06E883B3F 02E6B929B 2C1C413B4 030E46DD1 21 1B625E3F9 0F708F756 00CD97B18 3F036B4DF 2CF08C3E5 213A5A681 14A298D91 3D2ED63BC 22 2DA48D5A9 00085BD17 01903428A 3DF2A30D9 29061309A 16F7DC40E 2AF88A583 27C1DA5E9 23 30DBAC784 20C3B4C56 0F1538CB7 0DDE7E1BE 2C312903B 0FF21E6C2 032C15DE3 26C9A6BA4 24 3188E8100 385FEFE2D 3967856C7 3F62D246B 1826A755E 2CDA895EA 2FAB77825 1B525FF88 25 339467175 2DE49506B 27B7282A9 0254470A3 3374310AF 2DF20FD64 3848A6806 11C183E49 26 02AFA38DC 0F2AFDDF4 1A05650E2 061439F88 11C275BE0 30C41DEC9 119E070E9 1E76542C1 27 18364E155 086FF808C 29F1BA9DC 0A8300788 2E70D0B3A 34EA776B1 3D13615C0 15FC708D4 28 38ECFC198 07034E983 2340F86B3 07562464C 22823E455 1F68D29E9 257BB66C6 1083992F1 29 375C4F5AB 3C0F5A212 0EA21BC30 13E8A26F2 17C039773 283AD6662 1F63AB833 2DE933CAF 30 2B773E3C5 3849BBE6C 1CAD2E5AB 0405FA1DE 182784269 3B3BF258F 300E77286 39599C4B1 31 1E878F0BE 0AE5267EC 376F42154 1CD517CC2 302781C47 123FEC7E0 16664D3D8 248871A55 32 20E20000A 1C94D2FF1 213F8F01B 369A536E0 161588399 29389C7FC 259855CAC 06025DCE2 33 28D2E001C 3C51C3727 106F37D0E 1FB0EFDD1 2CD9D33C3 1EA190527 0BB5A6F9E 074867D50 34 08EFC44B5 18484EABE 05FEB2DE2 211AF91B5 0CF52B1E1 002B5C978 11D6E5138 0D402BDD2 35 337C618F4 0A4C31DDA 1D93003D6 006D7D088 348043A6D 325E05758 2C53EEEB8 15ED8E614 36 38375C2FF 18C78FD02 30C11EF53 3916581DD 1B75263FF 2D8DFD6A9 00C4E8482 1D201F96A 37 2E10B0D05 2EF203893 2491D95F1 34D9951151 32214BDF5 3E45674B1 3E74AC66E 18813A999 38 153E7269D 2391C7BFC 1ADD3A595 0EFD3086E 00AD88A8E 0D8B007CA 0F22C5F9D 010E86385 39 3B58C7BFF 0BA76496E 3AD0B7BBF 1D6D10FB3 3A607BEFC 28F122A95 057950727 179449CB7 40 37AC5194A 390BD9C00 3A48C0461 12FBCE4C6 2A8DD4171 10E9F1E34 251F5D167 1124E96111 41 0FEF20C67 31EC9EA3F 275B31143 22DA4F02B 352C0F648 21FF5B9F3 3E5BC2372 0A1AE08FE 42 080EDC49B 17AD7F7BA 390775B3C 1380B00DA 2477FF17C 2E6D9E5AF 05381F2DD 26143CC17 43 2DB485795 1B3252799 39AD0211C 3AAE31B76 30532A187 1C8EA5F5A 2EA6E4D6B 30570A2E4 44 11BB4F78A 12CCE1428 2C67EEF99 20E3F841A 20CFCD5F2 1618A7B94 111FF6092 2ED034E06 45 1066335E5 0CA9B9BD2 3213028AE 15542DD28 290F7DAE2 2137F02D5 17DF9445D 24F162FFB 46 360FB966B 17D878955 1C1D67093 065B84F3A 1A1D955E3 24C73C11E 270EA9EB2 114DCA02C 47 002CE84DD 0616DD253 3E8188345 1FF852926 37E160F00 040DF51EC 1857A33BA 230FD8A0D 48 233C0A71F 22E428104 0325F8170 39566B188 32DA16A4A 039FDF1DC 27A3E946C 0D69F26D9 49 0583F9F73 378380CB6 059D8A960 3E3442C7F 026138ADB 25F370F1E 09D3EB2CC 2D37D5000 50 08DF9CC66 2C2E7AA8F 3CB241ED2 03216B4D2 39736B451 25F6F113F 08FD2AC3C 1974574FD 51 3D1FF6041 2CE2AB97F 01A734F3B 1DCF9F3C5 268D595CA 1FBD2A8B8 0F1449F86 370C352FD 52 123218E40 3AA057589 20F73A16F 26E3BCA5F 3A7330DC6 12C659384 39D99FF1B 276DFC540 53 185AEDEA4 0418B3643 382F7700A 3FC35ED60 07BA2F838 1BC840C93 2469A41EC 0CE7B4CB0 54 2E194E2BF 3302A0B28 1836001EE 154A4738A 36A3BBD72 23CCD0EB1 044B3A13B 2B5008057 55 0876405D3 231AAA72 80EE05E9 B60093A21 F22065A01 D01F2B81 0D41082F3A 731DAFEA492 56 07AD23A3A 2091957F1 3B9D8CBF0 21E4160BE 1BFB25224 3D9085D16 03076DD39 1DBCF8D03 57 226D70EBF 3ED15246C 364130C46 22F6D4AA3 3FCC9A71B 3B9283111 0484F0E58 14574BD47 58 3F4980987 305231FA6 0CF4F6788 3B9296AED 234619005 3365711F4 078900D4A 352686E95 59 1D62AC9A4 104EDD1F5 1B0E77300 10ED8E7F0 388E8002C 1FE6199F4 02239CB15 1FE5D49A2 60 21314C269 28600D12A 22E4F1BAA 044E211B1 0DECFE1B4 3E5B208CC 1CFC91293 21E7A906B 61 02C029E33 1BA88BE4D 3742AE82F 21EF0810F 17D23F465 240446FB5 17CCE51D9 2C0B0E252 62 16F9D2976 10185ECE6 2821673FD 02674271C 3A8A75B7C 226D4BF0F 2216004E5 0E8605674 63 06E4CB337 32A31755D 062BE7F99 1417A922D 2271C07E5 24D6111FA 3F2639C75 0CE2BB3A0 64 18D139446 2426B2EA8 352F18410 1133C535E 10CC1A28 F1A8B54749 22A54A6F4 2F1920F40 65 22443017D 2265A18F5 14E1DAE70 11AC6EA7 931A740502 3B14311E7 3AA31686D 26A3A961C 66 2018F4CA9 3A0129A26 39BDA332E 1941B7B49 03BBCE0D8 20E65BD62 2E4A6EE6C 3B095CCB3 67 0CC97E07D 11371E5FF 31DFF2F50 17D46E889 352B75BEA 1F1529893 21E6F4950 1BD034D98 68 275B00B72 125F0FE20 0FB6DE016 0C2E8C780 3026E5719 119910F5F 3B647515B 1D49FED6F 69 250616E04 0882F53BF 11518A028 3E9C4149D 09F72A7FB 0CC6F4F74 2838C3FD1 08E87689B 70 212957CC2 03DD3475B 044836A0B 2463B52C0 0342FB4B0 34AD95E9B 2936E2045 3B0592D99 71 2922BD856 22E06C30C 390070AED 09D6DC54F 3485FA515 064D60376 07E8288B3 3DD3141BF 72 29CB07995 007EE4B8B 16E787603 07C219E93 1031B93DD 23DEFF60B 30F1D7F67 0EFE02882 73 11F3A0A2F 38C598A57 3FE72D35B 1F655E0D1 0B3AC0D92 3430DDB1A 3BAADBF42 02D6124C0 74 05FC8085D 345A5C470 07DAAE1E9 0D7150B88 25D2A5B10 16F8E5021 3240EFC71 0F0F5922D 75 399F32F6E 2EEB17A8E 0D61665D0 2138EE96F 3F8119063 01B5048F7 27075153D 265DF8280 76 3962CC581 2337D2983 286FD7BBA 185126E0E 1F95AD927 0F7EBC374 1E3A4B6FF 20CA9B9BD 77 1C85C13AF 290C37167 1FDD26E8F 0C38736B8 0174DB972 0A921E3CC 097557C9D 09452C1E6 78 2D48D6C00 2D9BC8DFE 10FF1E128 25C96BA85 0FB071B8E 0F09B3C9C 1A3E11441 38EDDA03D 79 396B88B2F 0029F4BDB 30D098CAD 0D54D12CB 1D0823F55 2DC53B9AA 11BCF7438 33F6EC091 80 21E03CD65 1A2FE5B92 2851F8445 0251E386C 1468950D8 1A8B39748 001B42236 26CD82DA5 81 2CEA1E6BB 006C97E74 00C2B887D 23461AF95 0E9CB2BD2 0B0EA3022 1FB56A7A3 25A7FA625 82 208FC2A1F 38105733A 03F11D7E3 07ED6A7B7 1FEC85E09 3D61E0440 356F4B1C3 3756E5042 83 2061E47F0 22EAA0AD3 24796BB65 03C59B4D8 32A75E105 22155381B 23E5F041C 155D2D7F9 84 381AFFB73 212B5E400 1F1FE108E 04BF2C90D 3C1A949D9 2854A9B45 001B09322 3A9372CC1 85 058B23433 0904C6684 158CADB9E 11BA4B978 1854368F4 1919ECEA7 147F1FD34 2E228AA3C 86 34857F3DB 2CB44F7BF 111A065D3 1BEAB392E 27F081ED8 3E67D1186 0F6265AC5 27716FAF9 87 38EBB8BF1 32ED6E78F 2B0BA4966 2188282AA 00D49B758 1765BA752 2B50AFDCC 068C82450 88 234F0B406 02FB239CD 15AD61139 2250A5A05 1CD8117E0 0D849163F 268C7A5A6 22A802020 89 2D0FE8D16 0C14E3771 07DE5320C 0640C2762 1CBD9FF4E 37A91986D 2024DA401 164D4A84C 90 3225B4D60 3013B75F2 2A77AE5C5 2C25377EE 03C8DF835 346E80FCB 116B79FA5 356D2B604 91 0D55231FD 247907F31 0CFA0B049 36D069A95 10D4CDE71 1A32544D7 38336885F 173ECC08D 92 207420EAC 26FCFE182 3FE7B31C6 15B320E13 187AA34A8 1B52253BF 1FA16669D 3725A81A5 93 3C9C7404A 092B77FEB 3B9865B46 349456F61 39B7C6A66 3075EC990 01BE637DF 330897B17 94 1CA4C048D 2B4D50621 2BF917627 3EA2CC5E1 33EC0A1E3 05FE0F747 349553D72 396077301 95 04CEC1C82 1F828DD00 30122C790 1AD8A7895 10E0912C0 298382F37 2D4D33F06 001364B36 96 37F8BB035 2F0897994 333F5F096 0F28A13363 20036829F 338017E2D 3A5A05D76 0CC02E5E0 97 02FD351E6 03E316288 2FCAEB4F8 1C5A80CE3 3D3AC3FDD 3E456746D 119A5381F 15810894E 98 1623B3D0F 103224DB0 0FB936BC8 2EED7F082 26C91513A 2F12E4C31 290F3AEF2 392CBFF67 99 02F75DE8F 2E61A834D 02A692866 1F21044A3 2D7881A95 18651EE05 11FE3D308 39EED56DA 100 3A858659E 2F7A87BE0 135FD561D 27B3B651A 05E131CB9 0D5865123 2CD6991E5 3EE6DF705 101 3F3B247E1 32D02B245 16B98A593 1E4CCFF18 0C4A9D285 06D519FE2 023A336CD 1B20E999E 102 3A9E8B49B 239656AD1 3396D1051 06F4DCF40 15D819D3F 2A3061144 20BD2A33E 2FFB139CD 103 38622F3AF 24BF9BB7F 1D2729010 15877B93A 00376B0E7 0FF064887 3505CFD9B 354C366B6 104 2A0AB7033 1AFA65DE1 1198D0AD6 38E80086A 27693D541 3BB26F3D4 39154881C 0E7DD6B6B 105 1B0DE4333 27FE0F6D1 0F00B2888 0BDA322FF 2759B5A4F 0543A2D27 0C36DD1E5 04E9A262D 106 1C7E636BF 000E9C271 2B44F4F30 28255BF77 1CC4D69C E03F4C57B2 3E926D59B 00AA39BDB 107 1FDE98AE0 0CD076B07 171124FB5 33F098288 1E0B3043E 39731D117 3E7ABC2C 819CC50279 108 28EE855ED 2A704C37 103288F4B0 3C83E26C2 0A905148B 18C66BB94 1BCC32537 10D71AB44 109 26238A065 0FBD7BCD D02507CF76 059F69484 3FE0D6F77 2466A50DB 3C07A75B2 2DC0F099E 110 3CDCD6CBE 1446783DA 1626C83F9 2FD4C4DF3 13A59A2D1 2C903D2A3 0FD37F0760 81039EDD 111 043B07DD7 28D9C21552 CCEF57A8 34254C1B7 09B933B2F 1FA410127 10BD5E9E6 010EC6389 112 345E8FCAC 226BD7EFA 27341A51C 23854F031 04C2972120 44DED8E8 319B3BFB8 37DBBBF57 113 16FBEFA72 1B5EF94842 DEE7A5BF 097695C12 08AEAD5E8 3DA7C1327 2B81F3E2D 31AFBED32 114 3484086B1 2DFA56B9E 226E8AFE5 285F45484 3E69AC8E1 1CB33645F 2DE53BC30 2F6ED567E 115 1117B5E7D 122A4D471 1AC93654 4267010D71 10428CA472 4B72A000 2E27FE185 1E62C1403 116 0B3161E37 038C3DC98 100793647 1A95D8D36 3996687870 6C0D4922 25F48AA5 82DFFF1789 117 04FEF7231 381910B63 298783078 30CE5EC1C 29F6F299D 3C34CA770 37BAAB13 93D2069B65 118 18F644052 2051880EC 23ADBF949 04237280A 18304E6632 87364EFF 314698D78 149A21E51 119 39E14BBCB 1DBDA9EF 43ECCAD8D3 1BA3EF99D 26D85CEB F270547292 0FB3C782 60131E73D6 120 2DD6F3F93 0FC282088 14A143DDD 0AB840813 0B973037C 29535C9AB 0DF8DA2A C271CBC095 121 1C1D063F9 3F4EF6DCC 00128D932 145E31F97 0B21590D1 38F1602D8 3AC2EBB7 42320957C5 122 3383C846F 12128F29B 19985CE7D 2834CBBF2 1E1513B3D 364DB5800 33EE3F46C 01A865277 123 0129D260B 238A85BA 02D81AA924 3917048B6 36F857692 1D2F813C3 0505FB48B 3DC438BC5 124 05E0F8BDC 3D978C1F 1266F83FCA 0E89D715A 01821DEA4 12D9AE517 22F8EAC2 C3C098DA58 125 1575D10E9 26F29185C 13A7BB6D2 12CC21A3A 2975589B0 39CF607FF 388ABF18 33D3BAAB0B 126 101E5EC7A 0B75BCF3 B13ED25A86 35FC032B6 2F6209FF0 13C7B2041 1F2791466 3A759A6C2 127 1EF89091A 11A653D2C 223FC1F42 2F7B97B31 2CA4EE011 00F68767D 10FE34682 018339212

Sequence Set 2 for segment 1 (hexadecimal format) q\blk A B C D E F G H  0 20A601017 10D0A84DE 0A8C74995 07B9C4C42 23DB99BF9 12114A3F5 25341EDB0 362D37C00  1 1364F32EC 0C4648173 08C12DA0C 19BD8D33A 3F5F0DDA6 24F99C596 026976120 3B40418C7  2 106548078 0A0D98F3C 0AC496588 38CBF2572 22D7DA300 1CCEAF135 356CA0CCF 093983370  3 03A8E3621 2D2042AF5 2AB5CC93B 05A0B2E2E 0B603C09E 117AC5C94 2D9DEA5A0 0BDFF0D89  4 07C4F8A63 3E6F78118 32CCD25F2 1792A7B61 0A8659788 1F9708C04 086AF6E64 040B9CD78  5 2D7EE485A 2C3347A25 3B98E86AF 242706DC3 10EF639AF 2E1B0D6A9 3E9F78BC1 0FB31275F  6 0307936D0 210E15F03 392655B2D 17BE2DE53 3718F9AB8 01A986D24 077BDA4EB 1D670A3A6  7 05A10F7B7 31900ACE0 28DCA8010 2D927ABE5 370B33E05 31E57BCBE 030DC5FE1 093FDB77B  8 092C4FED1 268BF6E42 24576811F 09F2DAA7F 24EFFC8B1 21C205A90 1E7A58A84 048C453EB  9 29F162A99 1F739A8BF 09F684599 1BEC37264 38ED51986 286325300 344FC460A 3907B1161  10 0E4616304 0FABDCD08 0F6D6BE23 1B0E7FEDD 0047DE6C2 36742C006 2D7ABB967 10D5481DF  11 32DD51790 237D6ACFA 2F691197A 16724EA58 149143636 381006EE1 3A78B3FC6 1B1259333  12 1BB0FD4D3 235F10A55 1C7302A27 1148B18E5 04F25FBC8 2A0A8830C 3646DBE59 2F25F8C30  13 0FB38C45B 069DF29E9 00F93771B 3AA35746D 2CAF48FD0 0A42CDD55 19A23CE8F 26318A30F  14 365FBEDAC 27710945F 2AA367D61 05A484318 2563F27D9 2D37D5C00 287D18FBB 3ADB44805  15 3038BC77D 2A45D29EC 156173792 03EC7679E 07577E1A4 1B6A94A74 1D26E5A94 0FD878D5A  16 1F22158E4 3F02A1D37 2767EC03F 1C8CD535A 23DA2E5AB 2D5F25A59 0971AA889 3E78C1846  17 16521E709 12C2DB8FE 3A596C221 1562D5C27 1D9E1F39A 345B96872 301C7894E 2797F032D  18 2EC951A24 1ED768F3F 11217930A 39DB44855 36E41B3FC 0F6E48C44 36254C517 14493C673  19 3EA159E72 24ADE96FE 3458C73A6 30674E1FB 242109AF2 24DAF32B6 24B1EDFFE 291CB9D15  20 2AD0E6696 04F4077D9 1BB279A53 38957605B 379B7A6A0 0BAD35616 1285EAE51 37425C7FF  21 083637980 34F2ED66F 282846A88 19D5E40A6 21205942C 27AC551E9 0F3F4C262 0505FB522  22 3E7D64856 1DB0E599E 159120A4B 1FC788139 235C454FB 3CE5B67C8 339EADB32 0F9F7DDC1  23 3956371B8 1D67BE6E5 1EFCF7D53 041A5C363 2E281EB3F 00AF8A1ED 2DE24A56F 1332C0793  24 0818C47A9 1F945634B 105ED3403 1043B5BF4 149702D22 024CBB687 34B01FA8B 1E9F5992F  25 3A6618167 3A0007886 3EDB5756B 2F2FA6FCD 21A5252B8 396FFAD9D 05347B60C 2E0ECA200  26 0D45F89A1 3F9C2C26E 1CBCF809E 3CBE5FCD0 3D2DCF245 14F351A1E 224F5B3FF 2AA6ED34B  27 3BA85ADF8 282005732 3AD7C0223 2E73D1800 23DEA3F46 2275280F6 1586270F9 0CEF4287B  28 07DFE662E 314B74F2F 397BDDC4C 223A8071F 1F5BE3BB4 093BB1F33 0FCA2D129 21B3526A9  29 39FEADC12 0ECE1CD67 206228FAA 38FCCA606 0C5EEE08F 1C1BBDD4E 1459E42ED 11FD64ADF  30 2735FFB20 2AE9B244A 1A5AED974 38FCFD5CB 20310DB81 1C5FC3E24 19FB3BA17 3785BE865  31 24FF6B7EC 010682673 19CB14113 2C8CD3C2A 066725853 02CD0A23B 279B54315 0CD571063  32 015E28584 30B497250 127E9B2E1 2C675E959 05F442DEE 394AEF6E2 079E5C840 12703D619  33 3CE4B1266 35270B10F 03549C4B3 3B3E6C375 1DBEF270E 0042C9737 049522EC6 24961653E  34 34176CD90 2B5E9EAE1 1C95E3C2B 1EF541D4D 26D1450E6 3B9D895AB 1B0084349 104B6B428  35 07A813421 2B39EAADC 33553571C 0F8046CDF 2CF6A7F23 0AE3BE8C8 308BFF531 2DBC0F9E3  36 168276972 2CF41744F 3CF2512E0 0F8B68ABC 2E609F6AF 04E03AC8C 0F9B66F49 3AFE28736  37 03456021F 1982574F3 0BB2B3F49 15A4A1CDE 15487D58E 2907C9ABB 15C0D2D73 28D8CFEC3  38 3D3FD677C 33AF2628F 3D217FDCF 30027E85F 0A463F23B 2F2AE8324 1D1E945E0 2EB355D28  39 3BCAF9076 3A7D2FF70 3C541F38B 249BD8A94 287BC4833 141391EB7 05B6443D0 2FEACC5E7  40 275F118FA 3A96B346D 0C713CDE5 02F394A28 3EBB1D18D 1BE7A9FDD 223C53CA1 2BF040F77  41 1161DE4F5 0544F9DB7 230847E45 322AF4E17 26944A0B4 3299F1420 1C9405B8E 2DBABD4CE  42 33165C531 268FE9B9B 081A914B4 39100772B 27DBF03E9 3E3A18AB0 13F2D2B83 2CEEE5FF4  43 275F97006 0A578F2EF 16CEE7EC8 38A5B0084 00DC9A1F5 1B88CFA3D 0D8B0B8EF 29FC4CCF2  44 04BBE4F2C 1546C3988 237105A43 339042B36 3A5DEBE2B 1BD09449D 38EFF588B 1CDD3A6C0  45 002E32D38 1E85D3125 3F51120D7 00420ED63 3384713AF 1D941BD34 2B39EA9CF 05B6D9E94  46 2B3100F7B 335EDB2E6 1AC8C8EE4 337FF7139 0672D7995 38A54856E 0124753F2 3A3560851  47 046207CE9 0FE1BC312 09BA5B289 39376EF2B 33F826C2C 2F6531496 3933B8616 23125B50F  48 3E5849C45 01EEDB390 141D9A024 2DE07E565 1813D12BB 36DB8D404 0E8A272AB 3A66B71AD  49 1A2A88A4C 3F0C9B4DB 266CFBDF9 163420CA5 281ABBE99 34771C295 3AC051848 3C53CB875  50 16F795184 3466F1FFA 1F433B456 1DDF13810 25F58CF69 1DD6CFE4E 10A236FDF 12AE697ED  51 1C8D17F4F 07C43B7D1 1C8DAD395 28F6C112E 3A336ADB3 0EB6889AB 2783A6A1F 2CDA40458  52 16044624E 252AA04B2 11484E85C 07F5024B7 286E3A67F 2EE6BACE4 277F1F864 22F3CF57D  53 2D1A3F4CF 0EEB6DEC1 30CD76F42 20403D1AC 3A72EF9D6 1DAAF2A39 03AB76CE0 0A2856267  54 0FA2A786B 38273EDF2 228A45016 0309DF52D 093BDAEDC 1B11E9300 1DA9C5324 03365EB 1 E  55 24DCFDC06 11CF909D6 2FF693F4C 366338F1F 22E641569 0ACA60D55 32D1B009E 035472E09  56 17F5D6662 062FCF913 35B211035 21ACE73FB 3B4148706 2D0CD106F 2CAB457A4 103E1E49B  57 21859E8DA 2F1E3B3D9 1F1014BE2 062A3DEB5 354C00786 05A8982D4 35A758943 346EBA72A  58 00CB49E5F 211B1034A 3A5D2DAF1 21D3F3EB0 24B2D1150 1097C3685 2AA36710E 0E5DC1308  59 24C8401BE 217B1F994 1FB9664A8 3D5057708 05A506088 1314842B9 3C8657064 14B1FA77F  60 2AD698E2E 3C129D1F62 C744FF4E 1C1C052F8 18C38A9FE 252168A10 2EB68D098 3A001CBD2  61 2AF71324C 2BF41D408 0FC498E18 149A1A407 0FDC2C4A3 19D00C4A1 0F6B0DD29 268CF8E86  62 19F4D82A5 342C73FD5 0F5AEEDE7 21A2A8953 15ADB7A94 11DBE038D 0A5B6634A 0FA382B77  63 0A5985778 35AC3032D 35691C85D 2829D55EE 04A3FBD8C 2C85BFA8E 0F459B864 3E878F0BC  64 100785EB0 054D4CE18 1BF657A8E 101DC64EF 0B4E3032A 24ECFD9C2 00C98BE0A 2A1F82444  65 300E8B09C 31A079FB3 0C41DEC5F 216CCFE4D 226C5A693 3C31A41DD 3A019974C 23B64EAFC  66 249BDC80F 0316ED79E 1E42B5567 0CFF04A4B 310678543 34D986980 1E3195429 280966E65  67 359A72B64 186A3999D 065825DDF 2D28E6000 10964C1E 11468C970E 34C8B606A 33CC94DB1  68 370B29C05 12841A9E8 2147E7160 1835345EE 06DB43F37 33854A725 065E6614C 151E2D7B1  69 0EAADDB27 004EC6DDD 30AA39B8B 2AEB34AD4 2A13D6649 00EC67B83 1176417CE 0E3683151  70 0832BA87B 3B67515B9 0FD34BC87 1688F83CB 370B52AD5 3A2CD6F3F 3343BF461 37BD48546  71 16EA2751C 1799D9C42 24055CEC9 226A907D4 133C68F80 22CA03BF0 05F723395 2D35008AF  72 122A5C67D 3E46230BC 09F475BA9 15B4B6754 11DE75C50 28C17544F 1D85FAB8D 0D5AD9537  73 105497CD9 3D405F487 05535D737 06952087B 1C4744AF4 3E0EF881C 3CED3D1BB 1D91157CE  74 1D276153D 14604EA77 1661FB979 3BAC5E9FB 089F41406 283154122 2AFDCE892 1FD5E0810  75 2A620F4C2 0DE484180 2D05E6458 3E6D15A27 0A92FF0B7 2CBF7BF53 25A2F28FA 19A10CE02  76 3A77B1FBE 2B262F810 2BEEA0F46 39706BBA2 09257163F 1026D5D74 2E2483EBF 1D6527C1E  77 0DC1EBA02 383C59C77 28C7ED115 06FED31D4 16F610DC3 000890B82 2FAD16A3A 35C9AD95F  78 3E5C1EBE2 3C65A769 12394005B6 251B1BB49 1F42BFA23 0E8608C07 24666F55C 11A5214DF  79 323E882C5 2DBFF5E13 3638BC43F 38CC5CBB5 1DBF783FB 0499418C7 2285E5A40 1A61D17E7  80 1E508F19D 0CF345F97 0E5648601 0A0951DF3 1194EE717 0A6C0B374 03C4E19EC 06F725799  81 0B54F4AEF 186A12343 04C4A6006 27C2CC0E9 3973075A1 392C5EEB7 3933C99B1 005F98CB2  82 021B6635A 3764D0696 20942B266 0155C4EDD 3FDBF7497 37356D442 374F3DB06 2718357FE  83 120DF6F80 0E41F376A 03544C7B2 2D6795EFD 29E8811E1 1B3EFD388 01CA4C48D 2067E8033  84 07703D649 35221AB50 22141A0D7 268061A59 2D9192B05 3834711FF 3A07258C0 36253B5AA  85 1C4A564C1 26804247A 16A4DB29D 0BEF93C88 37A3EAB6C 25547B136 3FC935878 250E3BF1C  86 17049BB43 0D6426761 2BF3A471E 1665820E9 14412A13D 30D5744B0 2ECE5CAE6 01395189C  87 29615B890 0A2C5A664 216DA64F4 3D4AA9D2C 07B98342C 2603F0D76 0574BDFA8 3F9B35D5D  88 3A0414B22 0A8BE885E 155C220E4 2D3B17AA6 3017E1B48 26508C6C8 3FF25EC63 240EFF072  89 2ACD810E3 0468D7943 2A4108121 1F2E8E67F 3AB446179 33325CA24 3006DD3A5 1A33F3A2C  90 2B038BAF7 070660C4E 30953C7B7 3E7375D04 1D6A39944 001BE5C8D 199A89253 0A82087BB  91 03BF7C836 2CBF9FC48 38EAB1C98 11C303993 3D748807F 1EBD41D17 351085EF2 1055B94D3  92 116E0BE61 17BC8C403 31BD1EAA 21CF87C049 2A41CC04D 3883EFEC1 3971BBBE2 190CAE3B7  93 172799BB5 3301DB193 2480B569B 34DBEFE9C 003287827 38DAEA1CB 0B0E25BB4 1972B37E3  94 3EF1F9EF4 189D8C3E0 1941998D3 259838BC9 28E545988 33BFC60D8 3572B10F3 197913B6B  95 24CF96D66 285347801 22BC70E5E 394231BCC 077583F4E 0364420AF 278FBF5CB 3850AFC8B  96 1B38C4A50 04439E0B5 3A7BEB18B 3003A36CD 329D5A2B6 1BB123AFA 049C2CC94 0F604D1DC  97 28D47EF33 24CF66B6B 24B716FA9 34ED7F6BB 186AE44B4 1380D0726 1CC51324E 16BA74F62  98 04422E60A 3424BA16C 3FF1B39DD 1A1E658F7 33457317D 14E822151 3EC02F279 28593D11D  99 0F2DF0912 21BBFA838 32D634EBF 2061148FD 09A565B74 2BCE430B7 34DAAD9FA 228ADAFE5 100 2D7EE0544 25D57B7CA 0FADAF20D 19B4F6444 3A75DF1C1 0AD3EDD56 0A4D61EEA 28C1262A5 101 1B6AEE253 0BFE02772 24AB19547 186A377A5 03089B4E8 128955F60 3A8DA9AC8 2931648B3 102 21BE0200F 00F34B4F5 34FF3261B 1A0E27AED 0A821AEFB 21B0BA404 106A644A4 1734EBB33 103 201FBED73 0592E9D86 053D87C9D 3CAFC7479 22F1BA3FA 3DB25DD15 31D468990 22FF2B539 104 06C77404E 18AE64252 3963D899A 37179C03C 0FD2E3D04 191E64DBB 380B841FB 368E1DEAA 105 3A561759B 156243DE8 04325D217 33993D0B0 0CEAC2109 002242D1B 33C1D9F5E 1EC4195D3 106 17D7A9B74 1F44ABA75 17B572FE3 096008B9B 1F1E00AAE 05489F7A1 17A4C131D 1C018E923 107 0A4ACCEC8 1F294A30D 19CAEE64E 002787A1B 03EB3238D 27C10F626 1C9E656A0 3F73609F0 108 1E0E3C802 1B52D12AA 2F4E003B7 23BA7A6F1 3CAA0998A 32E96C916 168EFA1EE 28147EE33 109 10EC9799E 215D9302B 176BB6639 003D5E371 12FE4ADB3 3106B64E2 001D9C28E 0F39059DC 110 31570792D 2260D7FEF 1AC830374 118FE7C78 08F982159 23BB2B13A 2C7944305 376396F3C 111 2D340540B 272E94D06 097C70995 0E70DDADA 1DBD644E5 341A72A58 01CBF5334 2C7999AF9 112 3FF17764D 0701DFAD3 146BDBB97 229D2D7F0 03C5DA21D 3A5916EC7 2390AC01D 197D64233 113 3E9759D5A 00B237425 0B7E646B9 190CB4D16 2646AA1D4 1A373103D 337E5EFB 10199DE4A1 114 3FD5ADE8A 26B843860 0A2D0AA7B 3C351E07F 1B25376AE 05C553CDD 1DBC3F38D 019823A2A 115 30FF187B4 112F9D7A1 1AE977517 3760AF555 004F86368 3700975C2 0518029DE 032427D9B 116 3A86D49BB 057E649D8 2FDE33D7 E31254217C 30E05CE12 10BCC1CD7 1889C5139 38A163ECF 117 2610F5174 02A7ACB27 208B84FF0 14609CA80 0F3526318 38EBC73842 87C57BAA 279661A9C 118 014F6D77B 1036B3D2C 294F1999A 33A059187 26CCE0507 180DF31290 0A6CAE22 2AC0F23A2 119 347C62997 1912A710D 22600531F2 F54BBEBB 0A2D90305 1BBEE20E40 AF79997E 2376F3D0F 120 04484EB82 181977944 1C1CC269 3227ECAB 0F23F32982B 19E2F290C1 BA2300F8 0EFB06247 121 0EC048AD8 3B2168495 34FC02DA1 2C0CDEF52 0553CA222 25DFA45812 9CF66B6B 0AB9C21CD 122 2AF502148 3B00632F9 387CDC4B F3F8B9F716 19084CD65 0354918C739 D1FD9AA 0F5ABDB77 123 2C6E2557A 3E8A19D6B 3E6756A2 8237E6E5BF 24CA57004 1D52401AD0 237F1D80 0FB2B335D 124 228F4B540 07532BF5D 101F67F52 29D8598EE 0421A0E23 2D89C2AFF0 963D2F3B 24C472A63 125 0CF3598E8 196A40BD2 00E63B26D0 88A0BFCA 1C78E9016 03835236C3 3071A836 3949DC586 126 3E815D747 1588D4E96 073C8D44A3 03281AE4 095D31EC8 1F10F69DC 200F057D8 1F270128F 127 34F9ACB6B 384870FF1 257A863DE3 4B36BA0F 3FA3D216B 27425041B0 E0DD0BAD 2E95AD35D

Sequence Set 3 for segment 2 (hexadecimal format) q\blk A B C D E F G H  0 13F99E8EC 3CF776C2A 3300A482C 0B2BF4791 17BECDFE8 35998C6D4 05F8CB75C 259B90F0B  1 116913829 05188F2A4 2DB0A8D00 2F770FE4A 185BE5E33 0F039A076 212F3F82C 116635F29  2 004EE1EC6 18EF4FDD9 26080900E 1A63FB8A7 1DAA917D4 0E6716114 02690646D 0CC94AD36  3 06D4FF377 2716E8A54 16A172008 08750246F 393045CCB 1DBCCDE43 114A0CAD6 181690377  4 3DC4EF347 1F53452FC 01584B5D3 11D96034F 1FA62568E 11974FACA 191BE154D 397C9D440  5 05A1B6650 29835ADAD 2F6DDABE4 0976A607B 11BA92926 2456B1943 3E3FD608B 095E7584B  6 00CC66282 0560BE767 21EBAA7C6 2D8E9ACE3 198A9E285 05F3E73DD 13DA751A2 176B75E43  7 03D08ADC1 2254606FC 3C695D892 1DA9E0280 2CD4FF589 19B78A5A4 0CE67A7C6 12535A61C  8 0984647CF 0822BA46B 3EB2BC076 212596F54 11CC2E64E 120BADF9F 0DA72CEDE 3 0D0E106F  9 083CE5726 1F05DA925 169D93EF6 1FCADF3D3 08A5CF0BC 317C8508F 19BDCCFE7 0FACE3631  10 27583A466 1CB1634D5 03C7849F7 38C6CED00 1161C 1 73A 15A645D3E 281A7ED92 076ADA797  11 33BA1AE8F 187F578EE 32473D69A 2458B703B 267E59071 0F317883B 3E7DEDBF1 3B9859BA7  12 0322609A3 20C4C957C 3FD638746 3FB716D79 36BD0CF1C 333B11B8F 0027ED1F2 3E7471BF3  13 3529922B1 0ECECBE04 1980B9B9E 38D60363F 18904BCED 108E3E5F1 34B95C446 338F51DAC  14 21FD50527 0EA2F7A31 1E294A159 114734A02 120B90BF3 3F3617C92 0129071E2 106640936  15 2B59354BB 275BF9761 39C6FF332 2004B3902 053F9DCB0 19D79A902 2B3125038 20649B43E  16 03A8A7A2B 091AE6721 18651FD9E 1F5415ECD 1B38EA62E 07FB0F422 3EB58896B 077FE4C7C  17 06A13CB38 340099B18 2AE6D6385 1669631F9 28E51A676 19A023391 261855F39 3E518F0BC  18 2A88F831B 09D295831 294C468DF 1477F0A13 37725C6EB 00E7DB222 27D610157 349A8FAB6  19 163E1C44D 3F98B6F4A 1805538DD 01EE3DB4A 22AA1797E 27568753E 16090F219 2C9838C01  20 34B0543DC 121B8EA82 00873B4A0 220FE7C05 2EDBEAE34 1104BDB93 0711E8C0E 0E1C107BD  21 226183AFF 15643DE71 04A4CDECB 2E67FDF8A 26D2A6D40 25E7695F1 1A99778F5 20FE0C1A3  22 0F7EAC09D 12BB72B2A 182E44301 2962EB85A 3477C1B69 3E3CF56F7 29C9D0006 39788600C  23 31084BEB5 1DC90E345 391736CC 1 3C8292AE 1 38A0D515C 3977012F6 25D1F6055 36A7D3F8B  24 229D3ABAC 1044BA05F 0C391B88A 0636A90A6 0B14322AB 21ADC33E4 2DC1A3BFE 0D7FF6D1F  25 33C85B393 37BFA31B6 134F872F0 0C5EA36E1 286956ED1 1632092FA 382B4BB10 23DC3EF14  26 38E8B9BF6 0A0CE666B 207D98054 23FF360AD 121BFDA4E 347D442FD 242922C07 23C6E4115  27 263EA8516 36138BD6A 0ED9C55E7 3F0937876 03232BC24 18E5FFF26 3530CF206 3981B7414  28 1D9AC2E79 051B220E9 3F3B09EC8 0D3F6C366 0201A7CB9 3D5477092 22185FF9F 105AA5348  29 208D85694 22104E7C5 14BCFD3DD 3592DF665 1F4EC3265 24358076A 2D20A8000 017F2D489  30 36B3A9A2C 3F8E0F162 13ACDCCF2 16951F727 271E73555 1B3EDCDE7 162B45352 1CAFA635A  31 2D30FE705 3EC9BFC8D 1B10F8349 34F973F31 1CA96A349 1A28B4543 105367CE6 2DFAB0AE7  32 21D93EB5A 0E49D6211 3 C6FCF774 09F44CACF 2D8CD2BEA 037DDAD3D 3BBD06D1D 39CBB996F  33 159B1F948 0183E8DCD 3A484866C 21F8DF 1A5 219A58193 2D1B3C399 2275F19BA 0EFF4C612  34 22EB93A82 15047E272 15428D77B 38FFC612E 20609BE54 3226C8254 3E5568DB2 159284EED  35 34529707C 2E84585F4 20DFFB4C5 28288AA00 10EFC1E07 3C4D211FC 379087C3F 25716A7DD  36 20106354F 22AEB9FD7 3A6BAC67D 3126294C6 0FBC874AC 2DFE5675A 391B1DDAA 06BAA74D8  37 348F83105 2E44BF3C2 3D9F6F454 20746A30E 08D183029 35C6BFEA7 2729B552B 263BB2EBD  38 202D7F08F 0DBE1C144 132F4EC09 184CD9B93 2596F5884 2A55B8217 2BEAE02D8 235A19A43  39 2DDE3FF5F 23932555C 001ED92D7 22FCD3D60 2C0737593 0B27E62FF 0693CFBDC 284D5B33F  40 1DB9AB8E9 2995EE0A1 1ACFE9892 0D41BCB9D 2E3806507 25CCD5D60 3536DF04C 0BB0A5E3B  41 3FFD4DD82 3E69CC1C1 2BC30FB74 3462F70FC 164FAE762 09B83F8AD 1DF593F3C 2DB478034  42 16E24E9B6 0A9FCFBD2 3A018544C 1 ED8E2855 0037681E4 05950E1F8 1107DA097 377A25C65  43 03C9318B8 0070A7749 0D58708C2 0CA2808C4 219E02554 39315B2F2 2E089B00F 302E135C7  44 04DC211E8 1DD20A505 21A50649F 2CA438C04 39CAD66AE 2E1BD969F 002748760 069924211  45 2E84BCF09 226F5D43C 37BE7EB10 07CDC854A 06FB50D48 08966435B 01BA5E5D2 1D34057FA  46 2D8DFD565 0A30D633F 33F93B7C6 0B330E9D2 0E659B262 130669024 19A9D5F64 38059132D  47 17E4777AE 1308F9046 2F7C0483E 1859E0943 0982C9101 05453D92C 001F53877 388A571AB  48 00D29CC63 0A6D3BDED 1CA44D2AF 388C002CA 2A3D70EF7 2DD3F5A6F 39FEAF0B6 11DFE385F  49 3E3A6CEC4 122F5E8BE 360B96301 0632CF244 2E8985A9F 0FD256C87 0449C29D4 26B713C90  50 238150687 3D96F7F7B 0091E6D18 21802352A 02F7A466E 0A5BB6648 350DA85DB 1C97F4544  51 306BA76DE 379A88697 3F0DA31E1 0EBF48C71 27F8A46EB 3F75A19F6 277002F97 275B43715  52 24D946CC1 38DF102DC 3EFE1F5B3 3C316E148 2735B20CF 0688E430F 0316DC923 24919BEA1  53 0EEAF72D2 3C7248573 1087A7BD6 08EDA9BF6 2B5D97BF4 26733DC60 1190D275B 2EC7ABD30  54 37C6AB63E 2FFC9C790 02CAA37A7 1B34A3F84 0022CD5F6 3ECF891BF 193D545E2 0172C674E  55 0848A41C3 1D8150EE7 3D8A8549A 2595F707B 00640B276 2D44EBDAE 1CAF37453 377EF590A  56 16B7A5F7D 1F5AA7998 382300A8B 218916E53 19D00E728 1 EDA11790 0BBDEF9C4 1DEB15796  57 3EFB3368D 392AA88AD 29CF3CACD 03F59ED8A 1042098CA 1721B8F3A 2B5DE9312 0CB5E6F23  58 1A8B0FB9E 3FBC09C8B 3D7F3E248 034C9BCB5 1BDD89300 3392476C0 0C10AED4B 23BECA42A  59 0EBC749B6 33453C7F6 304735F5C 334628143 1DAF6E7A9 11BB9C393 226C5E4FF 170372039  60 3F9262CBC 0693308C8 21B563415 09BDCC403 0112C79D4 2DA9F1134 36AA1CD7D 3A1608BFC  61 218AC590E 0FACC734D 02132C9A3 27087557E 076B3ECE7 2EA16BA3D 0E1D452F1 3 F70B027A  62 004F9DC68 25BE3AD9C 2CBD3C07B 3F9DECD71 3E771E15A 11FF2F24D 2AEA5DF67 1E838955D  63 3A04BC376 1D19254F1 00F92DD2B 3C57484F3 181D0973E 319F9CEEA 053ADEEDB 1A3C22150  64 0F78BA6BC 2DFE0E681 3035BD77D 0A0FFD148 275F50066 2246E9053 27B2BF3E9 1741894F8  65 1ACCD0F79 22F0AEA4F 32796ADB5 134A4A876 183D989E3 204C4BF97 22300E86F 3F18744A3  66 3EB6E19EF 1B24EAB88 2E318F810 3F07B618E 26B4C0087 31CC10EA8 169E1B650 017DF88ED  67 2BD9E8FED 0AB104122 30C9D81A0 09EA73C7F 141357B1D 000A7DB48 1DD06FD41 0AFA8EF72  68 19CA5678F 28A89AA43 1DB945917 262AF69C3 3145A4473 3742CBFF5 1BCD965E9 1B0E7FC84  69 077838B25 2BF7032F8 23DC2E014 028544277 37B4 1 1B5F 392FF6CDC 1D66F2BE9 011372DA0  70 39596216C 05A651F63 183A6AE26 0D 1 FCA203 0FF6F0D22 2FEB8364B 05A438ED8 32D045F13  71 3711AD513 290B237FF 20E2A9B26 0072A0234 2F1ABBE93 19B505378 354ED915D 0C359F272  72 1D7786BA4 1 CCDF053A 36828B333 0ED27AFB6 241326FC4 1A9C37F8B 0A9C3C372 05937E898  73 1053B9CDB 040B97B1D 0D4FF481D 23AD465A8 2906EBDE2 0C4F6C09D 2189C5FEA 2D90D305A  74 39073122B 35FEAA236 1B38B7A90 2E02AB9F7 219FEEA0A 36B3B2EF8 39A3F4C8B 15A42C9DD  75 2C6326A9E 33F7536C1 2A120075F 37030CAA0 3A011882C 09808504E 3B92D756B 175811CF9  76 38A0F736B 2BD9E9C32 3B989715A 2A646ADF4 2D02FE38C 1 1 AC7E9E 63F5464862 0F382B0D8  77 26897D80C 145B21D3E 143F5E320 30549707E 28126710C 122CA92BE 3AF47270C 0B544128F  78 00E931208 2E1E75EAA 374C36E5F 21724DFC5 1DFCD2028 1B3FF774E 3A826A68B 1781CDCA4  79 0C3D7268D 0B7A26BF9 1587CE5CD 1D04E1E60 36240007D 1 AC403449 0417F9622 02B9F8BED  80 1B569F488 08A3F3A46 377F03A18 2DE416045 1 ED96E381 33F4F 1 6DC 2C8DAAE4F 33E384AC7  81 13F709786 02A4E32CB 14C7F849E 09EA16987 06C849EA4 219E4B995 243CB7F07 253513BC6  82 09B83FDF2 119D60439 278290BFF 2483E6F2C 0EDEC175D 242A669C1 3EB639EF0 31EBB4CA0  83 22CAEF0E4 0B2FCDED0 19BA79607 343F81C7B 289AA213E 358AC9FFA 23956ADA1 00BC725E7  84 1186E95E3 2F95F4048 3CFBF41E2 1D1E4BE96 26B38BA65 2F715E590 2235C0029 2C89AF93F  85 33437ED6C 12F14DB69 2E70E5611 183752704 142BC8B34 3B90ECD86 1C11EB493 1022D4782  86 248457F60 05B9A28A5 0A2A5DD56 16002D9E7 34C87FB16 2E32BAE0C 21065BD64 1CCE92BB0  87 1DCE3941A 1D940ACE3 30D331B98 3D5A3BAB6 119791607 10FB0D788 2C78E9015 100B598E4  88 39C0BC811 1B886594E 27AF50073 2DCEA05E6 0805EDCA9 3A5989B08 18AD24255 1683B7CF2  89 186A3D233 09E8B95DA 1 ED9F3DBE 1B19A74F 8 356CA7443 316C9FBE9 3F 8A3162A 3A0BC11CC  90 02F039B63 2F02D3E75 0F5B5E89E 3D062255C 222C6AA4E 25DEA06FB 39488C071 139318BFB  91 27B5B6EE8 22154E0BD 3FF7729F1 1052B1947 3D477BF2B 3EDB6745A 1B30CF849 030F84AF4  92 27B2D40BC 0 1 EE5E9B6 24B0ACF84 3370F65E0 067D8DFA9 1C01B9327 26FF8FDB5 3809C0CA6  93 11F581193 07B9B7A7D 1CA56B4A3 3D088CC6C 11D52C38A 344760F0A 3D3AA336D 0118CBD93  94 096990784 2960D1672 3BFD7D847 2BC297EEE 32168CF28 3912FFF6C 08ED9BAB 1 34452C6E5  95 02CD48DC2 186403849 24C6EE1EA 12ED5268A 2718C00E9 27E8F18CF 145913E2D 0B09009BB  96 06B97DD08 2880C9B96 37EB87E03 14C4ED01D 17041E5DC 347A412CB 088CE591B 0BE926B22  97 116250DF7 1745B4329 1102B7093 1CA549C5A 25244AB6C 374E0F19B 274F76015 0FB738F16  98 12841B9E9 1F9C4AEEB 1445F0C98 39FFB6307 02AB688E7 0FD8B499E 28D533072 138F162EA  99 22BD9525E 2030E58C6 25F2CD033 157D93437 1442E92D2 3D6EE9DF3 3CA5B469D 0588A0FAE 100 0FDEC177D 2606157BE 2224E556C 006F33897 0F830DE1B 3C3F9C1D8 2AF576923 0D4173E27 101 376EF82C2 30E3 C582E 0A82DE29A 1 B8D454D9 079ACE6D9 2579984C6 392F28400 24CEAEDF1 102 1CD4AA9D2 1DD6F4DA5 3485B7150 105DE02F9 22168E0FA 24F48AA6C 003771A39 306890843 103 1F8303786 2C981AAE4 0819F22E9 0A1D88D55 3B4C012FD 0214CDF52 19DF3BE8F 02364E19A 104 1364A15C0 16E9F9961 17E598810 2654E5A2C 09B43C7C8 3A5E2AF45 14FC71E26 2B4BA69F4 105 12E128BEF 19166342E 04A1404B7 283D17B66 014836F64 13BE0B4B5 2F8583C08 2B19A7FB4 106 19F83FDE2 361D25170 36354011B 3FF4EC74B 1B2128FF9 0C849EB1B 096B991D8 1CA7A74AA 107 32E0BEF35 11A61714D 34C56D40B 0742C52FE 00ED2F1C4 3997FC7B7 06E414374 180DCD64F 108 1 8399ED59 224E6C2FF 3450F1BB7 27A1CA959 21B5E00F8 13B67DAE8 0B14C022E 0E41BBEE2 109 318D94D05 2EBB53B17 331C3E6F4 0FBCD71ED 380FF18B8 3E3C75B26 0E0088A18 17553D2A2 110 37AC7E5D5 27C9EADFA 3FC47B5E4 38699BB57 1564F8B27 3579C7FEB 13401BD88 0DB519DE0 111 0FF4D6F22 3C84242F3 2DEAE40AD 305F320A5 244CB97B0 0892DA905 3F09D5CB5 332E7DB02 112 31479E580 1B6AD13E0 16A1CF9E2 33A0A119A 1AC8388E9 3D4105F37 226501835 27AF1310F 113 1CBDAFE39 3E5A30C1C 236E9A029 063430D97 0CD91A825 02F335D7E 1989FE0BE 13C4E2A20 114 10B393370 33CB79316 2CEB44FC0 236019420 248F95ACB 35034B6F0 365691771 34A8FBCB6 115 25463FC5F 082FC0ED2 038ACE1CC 3E959B49D 21B8C04F5 08633F3A0 3A5D18159 12B3EC4C7 116 167B32C3E 06FF88387 34C3F468B 3239005B2 121C913AF 21C90CE16 28B54D557 3811CB0A9 117 221BD0503 0AF619499 21F8D40C1 1B3DA7AEE 3FA2E3B05 348466C50 10F12A28D 0E70B26AB 118 1D79A57C5 315D2460F 1402B8222 28DC66FEA 1BCF748F9 2AD5D4227 0094D2CAD 25EA22A58 119 062B39CFB 310E8818D 0F2D0A235 3F6468866 33F86F342 39CAB5BBC 2E7D6A8BF 3E9218162 120 2FCDEA0E0 1BDD766A4 2827B99BB 0B5F04CC9 1C9E02A9A 1A6675ED4 033497A06 07D4ADD44 121 3CD46CD9D 311A64A85 24DDFE6FF 341106FE5 0D0613CDA 0E9276056 178ACC4F8 23DEA3CB0 122 2762D6A40 306FE3843 1402589C8 382B07654 160BA3DEA 3815B54C8 273960105 2076A15E5 123 10593A744 1562487F6 0C38617B4 2CA68266A 071C4BF93 2593F0BDC 1562436E5 199BEEA49 124 35B8C7503 278F57EAA 34A804061 19C657A74 385734710 3FAC27628 0707BED4E 32F20F45E 125 34994C46C 106B99499 1AF24D850 11AD795D3 19288BFE9 1360C 1B96 3B5D8DBC0 2554E72D6 126 22D7095A4 34B70502A 3F0CB27D2 04FC214E6 24C0B80C5 03D6F4DC8 1432A099E 26300D70E 127 21C33416F 18B894695 3AC062614 3537CF601 00A20A8B8 1CD10BAF5 394DF1DC0 0925851ED

where blk denotes a subblock.
 17. The apparatus according to claim 16, wherein the first or second sequence is a Secondary Advanced Preamble (SA-Preamble) sequence.
 18. The apparatus according to claim 17, wherein the modulation sequence is located on subcarriers given by the following equation, ${SAPreambleCarrierSet}_{n} = {n + {3 \cdot k} + {40 \cdot \frac{N_{SAP}}{144}} + \left\lfloor \frac{2 \cdot k}{N_{SAP}} \right\rfloor}$ where n denotes an index of an SA-Preamble carrier set, indicating a segment Identifier (ID) ranging from 0 to 2, N_(SAP) denotes 144, 288 or 576, and k is an integer ranging from 0 to N_(SAP)−1.
 19. The apparatus according to claim 18, wherein the first or second sequence indicates information about a cell ID, IDcell according to the following equation, IDcell=256×n+Idx where n is an index of an SA-Preamble carrier set, indicating a segment ID ranging from 0 to 2, and Idx is an integer ranging from 0 to
 255. 20. The apparatus according to claim 16, wherein the modulation sequence is transmitted through a plurality of antennas, the modulation sequence being interleaved across the plurality of antennas on a subblock basis. 